Publications by Ludvig Magne Sollid

355 publications found

Publications 2024

1. Abadie V, Han AS, Jabri B, Sollid LM (2024)
   New Insights on Genes, Gluten, and Immunopathogenesis of Celiac Disease
   Gastroenterology, 167 (1), 4-22
   DOI 10.1053/j.gastro.2024.03.042, PubMed 38670280
2. Cubero-Leon E, Madsen CB, Scherf KA, Colgrave ML, Nørgaard JV, Anthoni M, Rizou K, Walker MJ, Sollid LM (2024)
   Barley based gluten free beer - A blessing or an uncontrollable risk?
   Food Chem Toxicol, 193, 115019
   DOI 10.1016/j.fct.2024.115019, PubMed 39307344
3. Das S, Stamnaes J, Høydahl LS, Skagen C, Lundin KEA, Jahnsen J, Sollid LM, Iversen R (2024)
   Selective activation of naïve B cells with unique epitope specificity shapes autoantibody formation in celiac disease
   J Autoimmun, 146, 103241
   DOI 10.1016/j.jaut.2024.103241, PubMed 38754235
4. Das S, Stamnaes J, Kemppainen E, Hervonen K, Lundin KEA, Parmar N, Jahnsen FL, Jahnsen J, Lindfors K, Salmi T, Iversen R, Sollid LM (2024)
   Correction to: Separate Gut Plasma Cell Populations Produce Auto-Antibodies against Transglutaminase 2 and Transglutaminase 3 in Dermatitis Herpetiformis
   Adv Sci (Weinh), 11 (21), e2400894
   DOI 10.1002/advs.202400894, PubMed 38477397
5. Drosu N, Bjornevik K, Cortese M, Levy M, Sollid LM (2024)
   Coeliac disease as a model for understanding multiple sclerosis
   Nat Rev Neurol, 20 (11), 685-690
   DOI 10.1038/s41582-024-01025-y, PubMed 39379493
6. du Pre MF, Iversen R, Sollid LM (2024)
   Coeliac disease: the paradox of diagnosing a food hypersensitivity disorder with autoantibodies
   Gut, 73 (5), 844-853
   DOI 10.1136/gutjnl-2023-331595, PubMed 38378252
7. Iversen R, Sollid LM (2024)
   Dissecting autoimmune encephalitis through the lens of intrathecal B cells
   Proc Natl Acad Sci U S A, 121 (9), e2401337121
   DOI 10.1073/pnas.2401337121, PubMed 38354256
8. Johansen A, Sandve GKF, Ibsen JH, Lundin KEA, Sollid LM, Stamnaes J (2024)
   Biopsy Proteome Scoring to Determine Mucosal Remodeling in Celiac Disease
   Gastroenterology, 167 (3), 493-504.e10
   DOI 10.1053/j.gastro.2024.03.006, PubMed 38467384
9. Johansen A, Sandve GKF, Maxwell JR, Smithson G, Sollid LM, Stamnaes J (2024)
   Biopsy Proteome Score Performs Well as an Effect Measure in a Gluten Challenge Trial of Celiac Disease
   Clin Gastroenterol Hepatol (in press)
   DOI 10.1016/j.cgh.2024.08.005, PubMed 39209203
10. Lindeman I, Høydahl LS, Christophersen A, Risnes LF, Jahnsen J, Lundin KEA, Sollid LM, Iversen R (2024)
    Generation of circulating autoreactive pre-plasma cells fueled by naive B cells in celiac disease
    Cell Rep, 43 (4), 114045
    DOI 10.1016/j.celrep.2024.114045, PubMed 38578826
11. Lukina P, Andersen IL, Eggen PT, Mjønes PG, Rønne E, Bolstad N, Klaasen RA, Warren DJ, Iversen R, Hveem K, Bernklev T, Jelsness-Jørgensen LP, Pedersen L, Jonkers I, Lagergren P, Sollid LM, Lundin K, Ness-Jensen E (2024)
    Coeliac disease in the Trøndelag Health Study (HUNT), Norway, a population-based cohort of coeliac disease patients
    BMJ Open, 14 (1), e077131
    DOI 10.1136/bmjopen-2023-077131, PubMed 38195172
12. Lukina P, Andersen IL, Klaasen RA, Warren DJ, Bolstad N, Mjønes P, Rønne E, Iversen R, Sollid LM, Lundin KEA, Ness-Jensen E (2024)
    The Prevalence and Rate of Undiagnosed Celiac Disease in an Adult General Population, the Trøndelag Health Study, Norway
    Clin Gastroenterol Hepatol (in press)
    DOI 10.1016/j.cgh.2024.06.027, PubMed 38987013
13. Meling MT, Kleppa L, Besser HA, Khosla C, du Pré MF, Sollid LM (2024)
    Enterocyte-Derived and Catalytically Active Transglutaminase 2 in the Gut Lumen of Mice: Implications for Celiac Disease
    Gastroenterology, 167 (5), 1026-1028.e4
    DOI 10.1053/j.gastro.2024.05.029, PubMed 38825048
14. Risnes LF, Reims HM, Doyle RM, Qiao SW, Sollid LM, Lundin KEA, Christophersen A (2024)
    Gluten-Free Diet Induces Rapid Changes in Phenotype and Survival Properties of Gluten-Specific T Cells in Celiac Disease
    Gastroenterology, 167 (2), 250-263
    DOI 10.1053/j.gastro.2024.03.027, PubMed 38552723
15. Santos AJM, van Unen V, Lin Z, Chirieleison SM, Ha N, Batish A, Chan JE, Cedano J, Zhang ET, Mu Q, Guh-Siesel A, Tomaske M, Colburg D, Varma S, Choi SS, Christophersen A, Baghdasaryan A, Yost KE, Karlsson K, Ha A, Li J, Dai H, Sellers ZM, Chang HY, Dunn JCY et al. (2024)
    A human autoimmune organoid model reveals IL-7 function in coeliac disease
    Nature, 632 (8024), 401-410
    DOI 10.1038/s41586-024-07716-2, PubMed 39048815
16. Sollid LM (2024)
    Tolerance-inducing therapies in coeliac disease - mechanisms, progress and future directions
    Nat Rev Gastroenterol Hepatol, 21 (5), 335-347
    DOI 10.1038/s41575-024-00895-3, PubMed 38336920

Publications 2023

1. Amundsen SF, Stamnaes J, Lundin KEA, Sollid LM (2023)
   Expression of transglutaminase 2 in human gut epithelial cells: Implications for coeliac disease
   PLoS One, 18 (6), e0287662
   DOI 10.1371/journal.pone.0287662, PubMed 37368893
2. Chlubnová M, Christophersen AO, Sandve GKF, Lundin KEA, Jahnsen J, Dahal-Koirala S, Sollid LM (2023)
   Identification of gluten T cell epitopes driving celiac disease
   Sci Adv, 9 (4), eade5800
   DOI 10.1126/sciadv.ade5800, PubMed 36696493
3. Das S, Stamnaes J, Kemppainen E, Hervonen K, Lundin KEA, Parmar N, Jahnsen FL, Jahnsen J, Lindfors K, Salmi T, Iversen R, Sollid LM (2023)
   Separate Gut Plasma Cell Populations Produce Auto-Antibodies against Transglutaminase 2 and Transglutaminase 3 in Dermatitis Herpetiformis
   Adv Sci (Weinh), 10 (25), e2300401
   DOI 10.1002/advs.202300401, PubMed 37424036
4. Funsten MC, Yurkovetskiy LA, Kuznetsov A, Reiman D, Hansen CHF, Senter KI, Lee J, Ratiu J, Dahal-Koirala S, Antonopoulos DA, Dunny GM, Sollid LM, Serreze D, Khan AA, Chervonsky AV (2023)
   Microbiota-dependent proteolysis of gluten subverts diet-mediated protection against type 1 diabetes
   Cell Host Microbe, 31 (2), 213-227.e9
   DOI 10.1016/j.chom.2022.12.009, PubMed 36603588
5. Heggelund JE, Das S, Stamnaes J, Iversen R, Sollid LM (2023)
   Autoantibody binding and unique enzyme-substrate intermediate conformation of human transglutaminase 3
   Nat Commun, 14 (1), 6216
   DOI 10.1038/s41467-023-42004-z, PubMed 37798283
6. Okura Y, Ikawa-Teranishi Y, Mizoroki A, Takahashi N, Tsushima T, Irie M, Harfuddin Z, Miura-Okuda M, Ito S, Nakamura G, Takesue H, Ozono Y, Nishihara M, Yamada K, Gan SW, Hayasaka A, Ishii S, Wakabayashi T, Muraoka M, Nagaya N, Hino H, Nemoto T, Kuramochi T, Torizawa T, Shimada H et al. (2023)
   Characterizations of a neutralizing antibody broadly reactive to multiple gluten peptide:HLA-DQ2.5 complexes in the context of celiac disease
   Nat Commun, 14 (1), 8502
   DOI 10.1038/s41467-023-44083-4, PubMed 38135691
7. Polak J, Wagnerberger JH, Torsetnes SB, Lindeman I, Høglund RAA, Vartdal F, Sollid LM, Lossius A (2023)
   Single-cell transcriptomics combined with proteomics of intrathecal IgG reveal transcriptional heterogeneity of oligoclonal IgG-secreting cells in multiple sclerosis
   Front Cell Neurosci, 17, 1189709
   DOI 10.3389/fncel.2023.1189709, PubMed 37362001

Publications 2022

1. Amundsen SF, Stamnaes J, du Pré MF, Sollid LM (2022)
   Transglutaminase 2 affinity and enzyme-substrate intermediate stability as determining factors for T-cell responses to gluten peptides in celiac disease
   Eur J Immunol, 52 (9), 1474-1481
   DOI 10.1002/eji.202249862, PubMed 35715890
2. Christophersen A, Dahal-Koirala S, Chlubnová M, Jahnsen J, Lundin KEA, Sollid LM (2022)
   Phenotype-Based Isolation of Antigen-Specific CD4⁺ T Cells in Autoimmunity: A Study of Celiac Disease
   Adv Sci (Weinh), 9 (10), e2104766
   DOI 10.1002/advs.202104766, PubMed 35119226
3. Christophersen A, Zühlke S, Lund EG, Snir O, Dahal-Koirala S, Risnes LF, Jahnsen J, Lundin KEA, Sollid LM (2022)
   Pathogenic T Cells in Celiac Disease Change Phenotype on Gluten Challenge: Implications for T-Cell-Directed Therapies
   Adv Sci (Weinh), 9 (34), e2205912
   DOI 10.1002/advs.202205912, PubMed 36482157
4. Ciacchi L, Farenc C, Dahal-Koirala S, Petersen J, Sollid LM, Reid HH, Rossjohn J (2022)
   Structural basis of T cell receptor specificity and cross-reactivity of two HLA-DQ2.5-restricted gluten epitopes in celiac disease
   J Biol Chem, 298 (3), 101619
   DOI 10.1016/j.jbc.2022.101619, PubMed 35065967
5. Dahal-Koirala S, Balaban G, Neumann RS, Scheffer L, Lundin KEA, Greiff V, Sollid LM, Qiao SW, Sandve GK (2022)
   TCRpower: quantifying the detection power of T-cell receptor sequencing with a novel computational pipeline calibrated by spike-in sequences
   Brief Bioinform, 23 (2)
   DOI 10.1093/bib/bbab566, PubMed 35062022
6. Frick R, Høydahl LS, Hodnebrug I, Vik ES, Dalhus B, Sollid LM, Gray JJ, Sandlie I, Løset GÅ (2022)
   Affinity maturation of TCR-like antibodies using phage display guided by structural modeling
   Protein Eng Des Sel, 35
   DOI 10.1093/protein/gzac005, PubMed 35871543
7. Iversen R, Sollid LM (2022)
   The Immunobiology and Pathogenesis of Celiac Disease
   Annu Rev Pathol, 18, 47-70
   DOI 10.1146/annurev-pathmechdis-031521-032634, PubMed 36067801
8. Klaasen RA, Warren DJ, Iversen R, Bolstad N, Andersen IL, Mjønes P, Rønne E, Lundin KEA, Sollid LM, Ness-Jensen E (2022)
   The development and validation of a high-capacity serological assay for celiac disease
   Clin Biochem, 107, 13-18
   DOI 10.1016/j.clinbiochem.2022.05.010, PubMed 35660483
9. Li J, Zaslavsky M, Su Y, Guo J, Sikora MJ, van Unen V, Christophersen A, Chiou SH, Chen L, Li J, Ji X, Wilhelmy J, McSween AM, Palanski BA, Mallajosyula VVA, Bracey NA, Dhondalay GKR, Bhamidipati K, Pai J, Kipp LB, Dunn JE, Hauser SL, Oksenberg JR, Satpathy AT, Robinson WH et al. (2022)
   KIR⁺CD8⁺ T cells suppress pathogenic T cells and are active in autoimmune diseases and COVID-19
   Science, 376 (6590), eabi9591
   DOI 10.1126/science.abi9591, PubMed 35258337
10. Lindeman I, Polak J, Qiao SW, Holmøy T, Høglund RA, Vartdal F, Berg-Hansen P, Sollid LM, Lossius A (2022)
    Stereotyped B-cell responses are linked to IgG constant region polymorphisms in multiple sclerosis
    Eur J Immunol, 52 (4), 550-565
    DOI 10.1002/eji.202149576, PubMed 35094395
11. Lindstad CB, du Pré MF, Stamnaes J, Sollid LM (2022)
    Injection of prototypic celiac anti-transglutaminase 2 antibodies in mice does not cause enteropathy
    PLoS One, 17 (4), e0266543
    DOI 10.1371/journal.pone.0266543, PubMed 35385534
12. Risnes LF, Chlubnová M, Magistrelli E, Kemppainen E, Hervonen K, Mansikka E, Lindfors K, Salmi T, Dahal-Koirala S, Sollid LM (2022)
    Phenotypic Analysis of Disease-Relevant T Cells in Dermatitis Herpetiformis
    J Invest Dermatol, 143 (1), 163-166.e2
    DOI 10.1016/j.jid.2022.07.007, PubMed 35961617
13. Sollid LM (2022)
    Epstein-Barr virus as a driver of multiple sclerosis
    Sci Immunol, 7 (70), eabo7799
    DOI 10.1126/sciimmunol.abo7799, PubMed 35363541
14. Sollid LM, Iversen R (2022)
    Tango of B cells with T cells in the making of secretory antibodies to gut bacteria
    Nat Rev Gastroenterol Hepatol, 20 (2), 120-128
    DOI 10.1038/s41575-022-00674-y, PubMed 36056203
15. Zhou C, Østerbye T, Bach E, Dahal-Koirala S, Høydahl LS, Steinsbø Ø, Jahnsen J, Lundin KEA, Buus S, Sollid LM, Iversen R (2022)
    Focused B cell response to recurring gluten motif with implications for epitope spreading in celiac disease
    Cell Rep, 41 (4), 111541
    DOI 10.1016/j.celrep.2022.111541, PubMed 36288703

Publications 2021

1. Bakker OB, Ramírez-Sánchez AD, Borek ZA, de Klein N, Li Y, Modderman R, Kooy-Winkelaar Y, Johannesen MK, Matarese F, Martens JHA, Kumar V, van Bergen J, Qiao SW, Lundin KEA, Sollid LM, Koning F, Wijmenga C, Withoff S, Jonkers IH (2021)
   Potential impact of celiac disease genetic risk factors on T cell receptor signaling in gluten-specific CD4+ T cells
   Sci Rep, 11 (1), 9252
   DOI 10.1038/s41598-021-86612-5, PubMed 33927210
2. Christophersen A, Zühlke S, Lund EG, Snir O, Dahal-Koirala S, Risnes LF, Jahnsen J, Lundin KEA, Sollid LM (2021)
   Pathogenic T Cells in Celiac Disease Change Phenotype on Gluten Challenge: Implications for T-Cell-Directed Therapies
   Adv Sci (Weinh), 8 (21), e2102778
   DOI 10.1002/advs.202102778, PubMed 34495570
3. Dahal-Koirala S, Risnes LF, Neumann RS, Christophersen A, Lundin KEA, Sandve GK, Qiao SW, Sollid LM (2021)
   Comprehensive Analysis of CDR3 Sequences in Gluten-Specific T-Cell Receptors Reveals a Dominant R-Motif and Several New Minor Motifs
   Front Immunol, 12, 639672
   DOI 10.3389/fimmu.2021.639672, PubMed 33927715
4. Dewan AE, Koentgen F, Johannesen MK, du Pre MF, Sollid LM (2021)
   Generation of an HLA-DQ2.5 Knock-In Mouse
   Immunohorizons, 5 (1), 25-32
   DOI 10.4049/immunohorizons.2000107, PubMed 33461981
5. Eggesbø LM, Risnes LF, Neumann RS, Lundin KEA, Christophersen A, Sollid LM (2021)
   Single-cell TCR repertoire analysis reveals highly polyclonal composition of human intraepithelial CD8⁺ αβ T lymphocytes in untreated celiac disease
   Eur J Immunol, 51 (6), 1542-1545
   DOI 10.1002/eji.202048974, PubMed 33559929
6. Frick R, Høydahl LS, Petersen J, du Pré MF, Kumari S, Berntsen G, Dewan AE, Jeliazkov JR, Gunnarsen KS, Frigstad T, Vik ES, Llerena C, Lundin KEA, Yaqub S, Jahnsen J, Gray JJ, Rossjohn J, Sollid LM, Sandlie I, Løset GÅ (2021)
   A high-affinity human TCR-like antibody detects celiac disease gluten peptide-MHC complexes and inhibits T cell activation
   Sci Immunol, 6 (62)
   DOI 10.1126/sciimmunol.abg4925, PubMed 34417258
7. Li J, Zaslavsky M, Su Y, Sikora MJ, van Unen V, Christophersen A, Chiou SH, Chen L, Li J, Ji X, Wilhelmy J, McSween AM, Palanski BA, Aditya Mallajosyula VV, Dhondalay GKR, Bhamidipati K, Pai J, Kipp LB, Dunn JE, Hauser SL, Oksenberg JR, Satpathy AT, Robinson WH, Steinmetz LM, Khosla C et al. (2021)
   Human KIR ⁺ CD8 ⁺ T cells target pathogenic T cells in Celiac disease and are active in autoimmune diseases and COVID-19
   bioRxiv
   DOI 10.1101/2021.12.23.473930, PubMed 34981055
8. Lindeman I, Sollid LM (2021)
   Single-cell approaches to dissect adaptive immune responses involved in autoimmunity: the case of celiac disease
   Mucosal Immunol, 15 (1), 51-63
   DOI 10.1038/s41385-021-00452-0, PubMed 34531547
9. Lindeman I, Zhou C, Eggesbø LM, Miao Z, Polak J, Lundin KEA, Jahnsen J, Qiao SW, Iversen R, Sollid LM (2021)
   Longevity, clonal relationship, and transcriptional program of celiac disease-specific plasma cells
   J Exp Med, 218 (2)
   DOI 10.1084/jem.20200852, PubMed 33095260
10. Lindstad CB, Dewan AE, Stamnaes J, Sollid LM, du Pré MF (2021)
    TG2-gluten complexes as antigens for gluten-specific and transglutaminase-2 specific B cells in celiac disease
    PLoS One, 16 (11), e0259082
    DOI 10.1371/journal.pone.0259082, PubMed 34731200
11. Mikocziova I, Greiff V, Sollid LM (2021)
    Immunoglobulin germline gene variation and its impact on human disease
    Genes Immun, 22 (4), 205-217
    DOI 10.1038/s41435-021-00145-5, PubMed 34175903
12. Mikocziova I, Peres A, Gidoni M, Greiff V, Yaari G, Sollid LM (2021)
    Germline polymorphisms and alternative splicing of human immunoglobulin light chain genes
    iScience, 24 (10), 103192
    DOI 10.1016/j.isci.2021.103192, PubMed 34693229
13. Pavlović M, Scheffer L, Motwani K, Kanduri C, Kompova R, Vazov N, Waagan K, Bernal FLM, Costa AA, Corrie B, Akbar R, Al Hajj GS, Balaban G, Brusko TM, Chernigovskaya M, Christley S, Cowell LG, Frank R, Grytten I, Gundersen S, Haff IH, Hovig E, Hsieh PH, Klambauer G, Kuijjer ML et al. (2021)
    The immuneML ecosystem for machine learning analysis of adaptive immune receptor repertoires
    Nat Mach Intell, 3 (11), 936-944
    DOI 10.1038/s42256-021-00413-z, PubMed 37396030
14. Qiao SW, Dahal-Koirala S, Eggesbø LM, Lundin KEA, Sollid LM (2021)
    Frequency of Gluten-Reactive T Cells in Active Celiac Lesions Estimated by Direct Cell Cloning
    Front Immunol, 12, 646163
    DOI 10.3389/fimmu.2021.646163, PubMed 33796112
15. Risnes LF, Eggesbø LM, Christophersen A, Sollid LM (2021)
    Response to: "Some considerations about γδ and CD8+ T-cell responses in blood after gluten challenge in treated celiac disease"
    Mucosal Immunol, 14 (5), 1216-1217
    DOI 10.1038/s41385-021-00422-6, PubMed 34108593
16. Risnes LF, Eggesbø LM, Zühlke S, Dahal-Koirala S, Neumann RS, Lundin KEA, Christophersen A, Sollid LM (2021)
    Circulating CD103⁺ γδ and CD8⁺ T cells are clonally shared with tissue-resident intraepithelial lymphocytes in celiac disease
    Mucosal Immunol, 14 (4), 842-851
    DOI 10.1038/s41385-021-00385-8, PubMed 33654213
17. Shemesh O, Polak P, Lundin KEA, Sollid LM, Yaari G (2021)
    Machine Learning Analysis of Naïve B-Cell Receptor Repertoires Stratifies Celiac Disease Patients and Controls
    Front Immunol, 12, 627813
    DOI 10.3389/fimmu.2021.627813, PubMed 33790900
18. Slabodkin A, Chernigovskaya M, Mikocziova I, Akbar R, Scheffer L, Pavlović M, Bashour H, Snapkov I, Mehta BB, Weber CR, Gutierrez-Marcos J, Sollid LM, Haff IH, Sandve GK, Robert PA, Greiff V (2021)
    Individualized VDJ recombination predisposes the available Ig sequence space
    Genome Res, 31 (12), 2209-2224
    DOI 10.1101/gr.275373.121, PubMed 34815307
19. Sollid LM (2021)
    Gut tissue-resident memory T cells in coeliac disease
    Scand J Immunol, 95 (1), e13120
    DOI 10.1111/sji.13120, PubMed 34796982
20. Sollid LM, Lundin KEA, Leivestad T, Spurkland A, Vartdal F (2021)
    Erik Thorsby (1938-2021)
    Immunogenetics, 73 (3), 203-205
    DOI 10.1007/s00251-021-01218-5, PubMed 33956175
21. Sollid LM, Lundin KEA, Leivestad T, Spurkland A, Vartdal F (2021)
    In memoriam: Erik Thorsby (1938-2021)
    Scand. J. Immunol., 94 (1), e13055
    DOI 10.1111/sji.13055
22. Stamnaes J, Stray D, Stensland M, Sarna VK, Nyman TA, Lundin KEA, Sollid LM (2021)
    In Well-Treated Celiac Patients Low-Level Mucosal Inflammation Predicts Response to 14-day Gluten Challenge
    Adv Sci (Weinh), 8 (4), 2003526
    DOI 10.1002/advs.202003526, PubMed 33643806
23. van der Graaf A, Zorro MM, Claringbould A, Võsa U, Aguirre-Gamboa R, Li C, Mooiweer J, Ricaño-Ponce I, Borek Z, Koning F, Kooy-Winkelaar Y, Sollid LM, Qiao SW, Kumar V, Li Y, Franke L, Withoff S, Wijmenga C, Sanna S, Jonkers I, BIOS Consortium (2021)
    Systematic Prioritization of Candidate Genes in Disease Loci Identifies TRAFD1 as a Master Regulator of IFNγ Signaling in Celiac Disease
    Front Genet, 11, 562434
    DOI 10.3389/fgene.2020.562434, PubMed 33569077
24. Wyrożemski Ł, Sollid LM, Qiao SW (2021)
    C-type lectin-like CD161 is not a co-signalling receptor in gluten-reactive CD4 + T cells
    Scand J Immunol, 93 (6), e13016
    DOI 10.1111/sji.13016, PubMed 33368526

Publications 2020

1. du Pré MF, Blazevski J, Dewan AE, Stamnaes J, Kanduri C, Sandve GK, Johannesen MK, Lindstad CB, Hnida K, Fugger L, Melino G, Qiao SW, Sollid LM (2020)
   B cell tolerance and antibody production to the celiac disease autoantigen transglutaminase 2
   J Exp Med, 217 (2)
   DOI 10.1084/jem.20190860, PubMed 31727780
2. Iversen R, Amundsen SF, Kleppa L, du Pré MF, Stamnaes J, Sollid LM (2020)
   Evidence That Pathogenic Transglutaminase 2 in Celiac Disease Derives From Enterocytes
   Gastroenterology, 159 (2), 788-790
   DOI 10.1053/j.gastro.2020.04.018, PubMed 32302613
3. Iversen R, Sollid LM (2020)
   Autoimmunity provoked by foreign antigens
   Science, 368 (6487), 132-133
   DOI 10.1126/science.aay3037, PubMed 32273455
4. Lindstad CB, Qiao SW, Johannesen MK, Fugger L, Sollid LM, du Pré MF (2020)
   Characterization of T-cell receptor transgenic mice recognizing immunodominant HLA-DQ2.5-restricted gluten epitopes
   Eur J Immunol, 51 (4), 1002-1005
   DOI 10.1002/eji.202048859, PubMed 33368209
5. Mikocziova I, Gidoni M, Lindeman I, Peres A, Snir O, Yaari G, Sollid LM (2020)
   Polymorphisms in human immunoglobulin heavy chain variable genes and their upstream regions
   Nucleic Acids Res, 48 (10), 5499-5510
   DOI 10.1093/nar/gkaa310, PubMed 32365177
6. Sollid LM, Koning F (2020)
   Lack of relationship of AT1001 to zonulin and prehaptoglobin-2: clinical implications
   Gut, 70 (11), 2211-2212
   DOI 10.1136/gutjnl-2020-323829, PubMed 33443022
7. Ting YT, Dahal-Koirala S, Kim HSK, Qiao SW, Neumann RS, Lundin KEA, Petersen J, Reid HH, Sollid LM, Rossjohn J (2020)
   A molecular basis for the T cell response in HLA-DQ2.2 mediated celiac disease
   Proc Natl Acad Sci U S A, 117 (6), 3063-3073
   DOI 10.1073/pnas.1914308117, PubMed 31974305

Publications 2019

1. Bartolomé-Casado R, Landsverk OJB, Chauhan SK, Richter L, Phung D, Greiff V, Risnes LF, Yao Y, Neumann RS, Yaqub S, Øyen O, Horneland R, Aandahl EM, Paulsen V, Sollid LM, Qiao SW, Baekkevold ES, Jahnsen FL (2019)
   Resident memory CD8 T cells persist for years in human small intestine
   J Exp Med, 216 (10), 2412-2426
   DOI 10.1084/jem.20190414, PubMed 31337737
2. Christophersen A, Lund EG, Snir O, Solà E, Kanduri C, Dahal-Koirala S, Zühlke S, Molberg Ø, Utz PJ, Rohani-Pichavant M, Simard JF, Dekker CL, Lundin KEA, Sollid LM, Davis MM (2019)
   Distinct phenotype of CD4⁺ T cells driving celiac disease identified in multiple autoimmune conditions
   Nat Med, 25 (5), 734-737
   DOI 10.1038/s41591-019-0403-9, PubMed 30911136
3. Christophersen A, Risnes LF, Dahal-Koirala S, Sollid LM (2019)
   Therapeutic and Diagnostic Implications of T Cell Scarring in Celiac Disease and Beyond
   Trends Mol Med, 25 (10), 836-852
   DOI 10.1016/j.molmed.2019.05.009, PubMed 31331739
4. Dahal-Koirala S, Neumann RS, Jahnsen J, Lundin KEA, Sollid LM (2019)
   On the immune response to barley in celiac disease: Biased and public T-cell receptor usage to a barley unique and immunodominant gluten epitope
   Eur J Immunol, 50 (2), 256-269
   DOI 10.1002/eji.201948253, PubMed 31628754
5. Eggesbø LM, Risnes LF, Neumann RS, Lundin KEA, Christophersen A, Sollid LM (2019)
   Single-cell TCR sequencing of gut intraepithelial γδ T cells reveals a vast and diverse repertoire in celiac disease
   Mucosal Immunol, 13 (2), 313-321
   DOI 10.1038/s41385-019-0222-9, PubMed 31728027
6. Frick R, Gunnarsen KS, Dahal-Koirala S, Risnes LF, Sollid LM, Sandlie I, Høydahl LS, Løset GÅ (2019)
   A TRAV26-1-encoded recognition motif focuses the biased T cell response in celiac disease
   Eur J Immunol, 50 (1), 142-145
   DOI 10.1002/eji.201948235, PubMed 31580480
7. Gidoni M, Snir O, Peres A, Polak P, Lindeman I, Mikocziova I, Sarna VK, Lundin KEA, Clouser C, Vigneault F, Collins AM, Sollid LM, Yaari G (2019)
   Mosaic deletion patterns of the human antibody heavy chain gene locus shown by Bayesian haplotyping
   Nat Commun, 10 (1), 628
   DOI 10.1038/s41467-019-08489-3, PubMed 30733445
8. Goel G, Tye-Din JA, Qiao SW, Russell AK, Mayassi T, Ciszewski C, Sarna VK, Wang S, Goldstein KE, Dzuris JL, Williams LJ, Xavier RJ, Lundin KEA, Jabri B, Sollid LM, Anderson RP (2019)
   Cytokine release and gastrointestinal symptoms after gluten challenge in celiac disease
   Sci Adv, 5 (8), eaaw7756
   DOI 10.1126/sciadv.aaw7756, PubMed 31457091
9. Hung SC, Hou T, Jiang W, Wang N, Qiao SW, Chow IT, Liu X, van der Burg SH, Koelle DM, Kwok WW, Sollid LM, Mellins ED (2019)
   Epitope Selection for HLA-DQ2 Presentation: Implications for Celiac Disease and Viral Defense
   J Immunol, 202 (9), 2558-2569
   DOI 10.4049/jimmunol.1801454, PubMed 30926644
10. Iversen R, Roy B, Stamnaes J, Høydahl LS, Hnida K, Neumann RS, Korponay-Szabó IR, Lundin KEA, Sollid LM (2019)
    Efficient T cell-B cell collaboration guides autoantibody epitope bias and onset of celiac disease
    Proc Natl Acad Sci U S A, 116 (30), 15134-15139
    DOI 10.1073/pnas.1901561116, PubMed 31285344
11. Qiao SW, Sollid LM (2019)
    Two novel HLA-DQ2.5-restricted gluten T cell epitopes in the DQ2.5-glia-γ4 epitope family
    Immunogenetics, 71 (10), 665-667
    DOI 10.1007/s00251-019-01138-5, PubMed 31673720
12. Snir O, Kanduri C, Lundin KEA, Sandve GK, Sollid LM (2019)
    Transcriptional profiling of human intestinal plasma cells reveals effector functions beyond antibody production
    United European Gastroenterol J, 7 (10), 1399-1407
    DOI 10.1177/2050640619862461, PubMed 31839965
13. Sollid LM, Tye-Din JA, Qiao SW, Anderson RP, Gianfrani C, Koning F (2019)
    Update 2020: nomenclature and listing of celiac disease-relevant gluten epitopes recognized by CD4⁺ T cells
    Immunogenetics, 72 (1-2), 85-88
    DOI 10.1007/s00251-019-01141-w, PubMed 31735991
14. Tye-Din JA, Skodje GI, Sarna VK, Dzuris JL, Russell AK, Goel G, Wang S, Goldstein KE, Williams LJ, Sollid LM, Lundin KE, Anderson RP (2019)
    Cytokine release after gluten ingestion differentiates coeliac disease from self-reported gluten sensitivity
    United European Gastroenterol J, 8 (1), 108-118
    DOI 10.1177/2050640619874173, PubMed 32213060
15. Zühlke S, Risnes LF, Dahal-Koirala S, Christophersen A, Sollid LM, Lundin KE (2019)
    CD38 expression on gluten-specific T cells is a robust marker of gluten re-exposure in coeliac disease
    United European Gastroenterol J, 7 (10), 1337-1344
    DOI 10.1177/2050640619874183, PubMed 31839959

Publications 2018

1. Dahal-Koirala S, Ciacchi L, Petersen J, Risnes LF, Neumann RS, Christophersen A, Lundin KEA, Reid HH, Qiao SW, Rossjohn J, Sollid LM (2018)
   Discriminative T-cell receptor recognition of highly homologous HLA-DQ2-bound gluten epitopes
   J Biol Chem, 294 (3), 941-952
   DOI 10.1074/jbc.RA118.005736, PubMed 30455354
2. Gunnarsen KS, Høydahl LS, Neumann RS, Bjerregaard-Andersen K, Nilssen NR, Sollid LM, Sandlie I, Løset GÅ (2018)
   Soluble T-cell receptor design influences functional yield in an E. coli chaperone-assisted expression system
   PLoS One, 13 (4), e0195868
   DOI 10.1371/journal.pone.0195868, PubMed 29649333
3. Høydahl LS, Richter L, Frick R, Snir O, Gunnarsen KS, Landsverk OJB, Iversen R, Jeliazkov JR, Gray JJ, Bergseng E, Foss S, Qiao SW, Lundin KEA, Jahnsen J, Jahnsen FL, Sandlie I, Sollid LM, Løset GÅ (2018)
   Plasma Cells Are the Most Abundant Gluten Peptide MHC-expressing Cells in Inflamed Intestinal Tissues From Patients With Celiac Disease
   Gastroenterology, 156 (5), 1428-1439.e10
   DOI 10.1053/j.gastro.2018.12.013, PubMed 30593798
4. Lindeman I, Emerton G, Mamanova L, Snir O, Polanski K, Qiao SW, Sollid LM, Teichmann SA, Stubbington MJT (2018)
   BraCeR: B-cell-receptor reconstruction and clonality inference from single-cell RNA-seq
   Nat Methods, 15 (8), 563-565
   DOI 10.1038/s41592-018-0082-3, PubMed 30065371
5. Risnes LF, Christophersen A, Dahal-Koirala S, Neumann RS, Sandve GK, Sarna VK, Lundin KE, Qiao SW, Sollid LM (2018)
   Disease-driving CD4+ T cell clonotypes persist for decades in celiac disease
   J Clin Invest, 128 (6), 2642-2650
   DOI 10.1172/JCI98819, PubMed 29757191
6. Shao W, Pedrioli PGA, Wolski W, Scurtescu C, Schmid E, Vizcaíno JA, Courcelles M, Schuster H, Kowalewski D, Marino F, Arlehamn CSL, Vaughan K, Peters B, Sette A, Ottenhoff THM, Meijgaarden KE, Nieuwenhuizen N, Kaufmann SHE, Schlapbach R, Castle JC, Nesvizhskii AI, Nielsen M, Deutsch EW, Campbell DS, Moritz RL et al. (2018)
   The SysteMHC Atlas project
   Nucleic Acids Res, 46 (D1), D1237-D1247
   DOI 10.1093/nar/gkx664, PubMed 28985418
7. Tutturen AEV, Dørum S, Clancy T, Reims HM, Christophersen A, Lundin KEA, Sollid LM, de Souza GA, Stamnaes J (2018)
   Characterization of the Small Intestinal Lesion in Celiac Disease by Label-Free Quantitative Mass Spectrometry
   Am J Pathol, 188 (7), 1563-1579
   DOI 10.1016/j.ajpath.2018.03.017, PubMed 29684362

Publications 2017

1. Goel G, King T, Daveson AJ, Andrews JM, Krishnarajah J, Krause R, Brown GJE, Fogel R, Barish CF, Epstein R, Kinney TP, Miner PB, Tye-Din JA, Girardin A, Taavela J, Popp A, Sidney J, Mäki M, Goldstein KE, Griffin PH, Wang S, Dzuris JL, Williams LJ, Sette A, Xavier RJ et al. (2017)
   Epitope-specific immunotherapy targeting CD4-positive T cells in coeliac disease: two randomised, double-blind, placebo-controlled phase 1 studies
   Lancet Gastroenterol Hepatol, 2 (7), 479-493
   DOI 10.1016/S2468-1253(17)30110-3, PubMed 28506538
2. Gunnarsen KS, Høydahl LS, Risnes LF, Dahal-Koirala S, Neumann RS, Bergseng E, Frigstad T, Frick R, du Pré MF, Dalhus B, Lundin KE, Qiao SW, Sollid LM, Sandlie I, Løset GÅ (2017)
   A TCRα framework-centered codon shapes a biased T cell repertoire through direct MHC and CDR3β interactions
   JCI Insight, 2 (17)
   DOI 10.1172/jci.insight.95193, PubMed 28878121
3. Iversen R, Snir O, Stensland M, Kroll JE, Steinsbø Ø, Korponay-Szabó IR, Lundin KEA, de Souza GA, Sollid LM (2017)
   Strong Clonal Relatedness between Serum and Gut IgA despite Different Plasma Cell Origins
   Cell Rep, 20 (10), 2357-2367
   DOI 10.1016/j.celrep.2017.08.036, PubMed 28877470
4. Jabri B, Sollid LM (2017)
   T Cells in Celiac Disease
   J Immunol, 198 (8), 3005-3014
   DOI 10.4049/jimmunol.1601693, PubMed 28373482
5. Landsverk OJ, Snir O, Casado RB, Richter L, Mold JE, Réu P, Horneland R, Paulsen V, Yaqub S, Aandahl EM, Øyen OM, Thorarensen HS, Salehpour M, Possnert G, Frisén J, Sollid LM, Baekkevold ES, Jahnsen FL (2017)
   Antibody-secreting plasma cells persist for decades in human intestine
   J Exp Med, 214 (2), 309-317
   DOI 10.1084/jem.20161590, PubMed 28104812
6. Nguyen TB, Jayaraman P, Bergseng E, Madhusudhan MS, Kim CY, Sollid LM (2017)
   Unraveling the structural basis for the unusually rich association of human leukocyte antigen DQ2.5 with class-II-associated invariant chain peptides
   J Biol Chem, 292 (22), 9218-9228
   DOI 10.1074/jbc.M117.785139, PubMed 28364043
7. Ráki M, Dahal-Koirala S, Yu H, Korponay-Szabó IR, Gyimesi J, Castillejo G, Jahnsen J, Qiao SW, Sollid LM (2017)
   Similar Responses of Intestinal T Cells From Untreated Children and Adults With Celiac Disease to Deamidated Gluten Epitopes
   Gastroenterology, 153 (3), 787-798.e4
   DOI 10.1053/j.gastro.2017.05.016, PubMed 28535873
8. Roy B, Neumann RS, Snir O, Iversen R, Sandve GK, Lundin KEA, Sollid LM (2017)
   High-Throughput Single-Cell Analysis of B Cell Receptor Usage among Autoantigen-Specific Plasma Cells in Celiac Disease
   J Immunol, 199 (2), 782-791
   DOI 10.4049/jimmunol.1700169, PubMed 28600290
9. Sarna VK, Lundin KEA, Mørkrid L, Qiao SW, Sollid LM, Christophersen A (2017)
   HLA-DQ-Gluten Tetramer Blood Test Accurately Identifies Patients With and Without Celiac Disease in Absence of Gluten Consumption
   Gastroenterology, 154 (4), 886-896.e6
   DOI 10.1053/j.gastro.2017.11.006, PubMed 29146521
10. Sarna VK, Skodje GI, Reims HM, Risnes LF, Dahal-Koirala S, Sollid LM, Lundin KEA (2017)
    HLA-DQ:gluten tetramer test in blood gives better detection of coeliac patients than biopsy after 14-day gluten challenge
    Gut, 67 (9), 1606-1613
    DOI 10.1136/gutjnl-2017-314461, PubMed 28779027
11. Snir O, Chen X, Gidoni M, du Pré MF, Zhao Y, Steinsbø Ø, Lundin KE, Yaari G, Sollid LM (2017)
    Stereotyped antibody responses target posttranslationally modified gluten in celiac disease
    JCI Insight, 2 (17)
    DOI 10.1172/jci.insight.93961, PubMed 28878138
12. Sollid LM (2017)
    The roles of MHC class II genes and post-translational modification in celiac disease
    Immunogenetics, 69 (8-9), 605-616
    DOI 10.1007/s00251-017-0985-7, PubMed 28695286
13. Sollid LM, Lycke N (2017)
    Per Brandtzaeg: patron of mucosal immunology
    Mucosal Immunol, 10 (1), 1-4
    DOI 10.1038/mi.2016.111, PubMed 28138161
14. Viken MK, Flåm ST, Skrivarhaug T, Amundsen SS, Sollid LM, Drivvoll AK, Joner G, Dahl-Jørgensen K, Lie BA (2017)
    HLA class II alleles in Norwegian patients with coexisting type 1 diabetes and celiac disease
    HLA, 89 (5), 278-284
    DOI 10.1111/tan.12986, PubMed 28247576

Publications 2016

1. Cardoso I, Østerlund EC, Stamnaes J, Iversen R, Andersen JT, Jørgensen TJ, Sollid LM (2016)
   Dissecting the interaction between transglutaminase 2 and fibronectin
   Amino Acids, 49 (3), 489-500
   DOI 10.1007/s00726-016-2296-y, PubMed 27394141
2. Christophersen A, Risnes LF, Bergseng E, Lundin KE, Sollid LM, Qiao SW (2016)
   Healthy HLA-DQ2.5+ Subjects Lack Regulatory and Memory T Cells Specific for Immunodominant Gluten Epitopes of Celiac Disease
   J Immunol, 196 (6), 2819-26
   DOI 10.4049/jimmunol.1501152, PubMed 26895834
3. Dahal-Koirala S, Risnes LF, Christophersen A, Sarna VK, Lundin KE, Sollid LM, Qiao SW (2016)
   TCR sequencing of single cells reactive to DQ2.5-glia-α2 and DQ2.5-glia-ω2 reveals clonal expansion and epitope-specific V-gene usage
   Mucosal Immunol, 9 (3), 587-96
   DOI 10.1038/mi.2015.147, PubMed 26838051
4. Dørum S, Steinsbø Ø, Bergseng E, Arntzen MØ, de Souza GA, Sollid LM (2016)
   Gluten-specific antibodies of celiac disease gut plasma cells recognize long proteolytic fragments that typically harbor T-cell epitopes
   Sci Rep, 6, 25565
   DOI 10.1038/srep25565, PubMed 27146306
5. Hnida K, Stamnaes J, du Pré MF, Mysling S, Jørgensen TJ, Sollid LM, Iversen R (2016)
   Epitope-dependent Functional Effects of Celiac Disease Autoantibodies on Transglutaminase 2
   J Biol Chem, 291 (49), 25542-25552
   DOI 10.1074/jbc.M116.738161, PubMed 27784785
6. Høydahl LS, Nilssen NR, Gunnarsen KS, Pré MF, Iversen R, Roos N, Chen X, Michaelsen TE, Sollid LM, Sandlie I, Løset GÅ (2016)
   Multivalent pIX phage display selects for distinct and improved antibody properties
   Sci Rep, 6, 39066
   DOI 10.1038/srep39066, PubMed 27966617
7. Spencer J, Sollid LM (2016)
   The human intestinal B-cell response
   Mucosal Immunol, 9 (5), 1113-24
   DOI 10.1038/mi.2016.59, PubMed 27461177
8. Stamnaes J, Cardoso I, Iversen R, Sollid LM (2016)
   Transglutaminase 2 strongly binds to an extracellular matrix component other than fibronectin via its second C-terminal beta-barrel domain
   FEBS J, 283 (21), 3994-4010
   DOI 10.1111/febs.13907, PubMed 27685605

Publications 2015

1. Cardoso I, Stamnaes J, Andersen JT, Melino G, Iversen R, Sollid LM (2015)
   Transglutaminase 2 interactions with extracellular matrix proteins as probed with celiac disease autoantibodies
   FEBS J, 282 (11), 2063-75
   DOI 10.1111/febs.13276, PubMed 25808416
2. Chen X, Hnida K, Graewert MA, Andersen JT, Iversen R, Tuukkanen A, Svergun D, Sollid LM (2015)
   Structural Basis for Antigen Recognition by Transglutaminase 2-specific Autoantibodies in Celiac Disease
   J Biol Chem, 290 (35), 21365-75
   DOI 10.1074/jbc.M115.669895, PubMed 26160175
3. Di Niro R, Snir O, Kaukinen K, Yaari G, Lundin KE, Gupta NT, Kleinstein SH, Cols M, Cerutti A, Mäki M, Shlomchik MJ, Sollid LM (2015)
   Responsive population dynamics and wide seeding into the duodenal lamina propria of transglutaminase-2-specific plasma cells in celiac disease
   Mucosal Immunol, 9 (1), 254-64
   DOI 10.1038/mi.2015.57, PubMed 26153762
4. du Pré MF, Sollid LM (2015)
   T-cell and B-cell immunity in celiac disease
   Best Pract Res Clin Gastroenterol, 29 (3), 413-23
   DOI 10.1016/j.bpg.2015.04.001, PubMed 26060106
5. Iversen R, Fleur du Pré M, Di Niro R, Sollid LM (2015)
   Igs as Substrates for Transglutaminase 2: Implications for Autoantibody Production in Celiac Disease
   J Immunol, 195 (11), 5159-68
   DOI 10.4049/jimmunol.1501363, PubMed 26503953
6. Lundin KE, Qiao SW, Snir O, Sollid LM (2015)
   Coeliac disease - from genetic and immunological studies to clinical applications
   Scand J Gastroenterol, 50 (6), 708-17
   DOI 10.3109/00365521.2015.1030766, PubMed 25846940
7. Riaz T, Sollid LM, Olsen I, de Souza GA (2015)
   Quantitative Proteomics of Gut-Derived Th1 and Th1/Th17 Clones Reveal the Presence of CD28+ NKG2D- Th1 Cytotoxic CD4+ T cells
   Mol Cell Proteomics, 15 (3), 1007-16
   DOI 10.1074/mcp.M115.050138, PubMed 26637539
8. Snir O, Mesin L, Gidoni M, Lundin KE, Yaari G, Sollid LM (2015)
   Analysis of celiac disease autoreactive gut plasma cells and their corresponding memory compartment in peripheral blood using high-throughput sequencing
   J Immunol, 194 (12), 5703-12
   DOI 10.4049/jimmunol.1402611, PubMed 25972486
9. Sollid LM, Iversen R, Steinsbø Ø, Qiao SW, Bergseng E, Dørum S, du Pré MF, Stamnaes J, Christophersen A, Cardoso I, Hnida K, Chen X, Snir O, Lundin KEA (2015)
   Small bowel, celiac disease and adaptive immunity
   Dig Dis, 33 (2), 115-121
   DOI 10.1159/000369512, PubMed 25925911
10. Stamnaes J, Iversen R, du Pré MF, Chen X, Sollid LM (2015)
    Enhanced B-Cell Receptor Recognition of the Autoantigen Transglutaminase 2 by Efficient Catalytic Self-Multimerization
    PLoS One, 10 (8), e0134922
    DOI 10.1371/journal.pone.0134922, PubMed 26244572
11. Stamnaes J, Sollid LM (2015)
    Celiac disease: Autoimmunity in response to food antigen
    Semin Immunol, 27 (5), 343-52
    DOI 10.1016/j.smim.2015.11.001, PubMed 26603490
12. Steinsbø Ø, Dørum S, Lundin KE, Sollid LM (2015)
    Serologic assay for diagnosis of celiac disease based on a patient-derived monoclonal antigliadin antibody
    Gastroenterology, 149 (6), 1530-1540.e3
    DOI 10.1053/j.gastro.2015.07.008, PubMed 26208894

Publications 2014

1. Amundsen SS, Viken MK, Sollid LM, Lie BA (2014)
   Coeliac disease-associated polymorphisms influence thymic gene expression
   Genes Immun, 15 (6), 355-60
   DOI 10.1038/gene.2014.26, PubMed 24871462
2. Bergseng E, Dørum S, Arntzen MØ, Nielsen M, Nygård S, Buus S, de Souza GA, Sollid LM (2014)
   Different binding motifs of the celiac disease-associated HLA molecules DQ2.5, DQ2.2, and DQ7.5 revealed by relative quantitative proteomics of endogenous peptide repertoires
   Immunogenetics, 67 (2), 73-84
   DOI 10.1007/s00251-014-0819-9, PubMed 25502872
3. Christophersen A, Ráki M, Bergseng E, Lundin KE, Jahnsen J, Sollid LM, Qiao SW (2014)
   Tetramer-visualized gluten-specific CD4+ T cells in blood as a potential diagnostic marker for coeliac disease without oral gluten challenge
   United European Gastroenterol J, 2 (4), 268-78
   DOI 10.1177/2050640614540154, PubMed 25083284
4. Dørum S, Bodd M, Fallang LE, Bergseng E, Christophersen A, Johannesen MK, Qiao SW, Stamnaes J, de Souza GA, Sollid LM (2014)
   HLA-DQ molecules as affinity matrix for identification of gluten T cell epitopes
   J Immunol, 193 (9), 4497-506
   DOI 10.4049/jimmunol.1301466, PubMed 25261484
5. Iversen R, Mysling S, Hnida K, Jørgensen TJ, Sollid LM (2014)
   Activity-regulating structural changes and autoantibody epitopes in transglutaminase 2 assessed by hydrogen/deuterium exchange
   Proc Natl Acad Sci U S A, 111 (48), 17146-51
   DOI 10.1073/pnas.1407457111, PubMed 25404341
6. Jabri B, Chen X, Sollid LM (2014)
   How T cells taste gluten in celiac disease
   Nat Struct Mol Biol, 21 (5), 429-31
   DOI 10.1038/nsmb.2826, PubMed 24777059
7. Lundin KE, Sollid LM (2014)
   Advances in coeliac disease
   Curr Opin Gastroenterol, 30 (2), 154-62
   DOI 10.1097/MOG.0000000000000041, PubMed 24457347
8. Sollid LM, Pos W, Wucherpfennig KW (2014)
   Molecular mechanisms for contribution of MHC molecules to autoimmune diseases
   Curr Opin Immunol, 31, 24-30
   DOI 10.1016/j.coi.2014.08.005, PubMed 25216261
9. Steinsbø Ø, Henry Dunand CJ, Huang M, Mesin L, Salgado-Ferrer M, Lundin KE, Jahnsen J, Wilson PC, Sollid LM (2014)
   Restricted VH/VL usage and limited mutations in gluten-specific IgA of coeliac disease lesion plasma cells
   Nat Commun, 5, 4041
   DOI 10.1038/ncomms5041, PubMed 24909383
10. Toft-Hansen H, Rasmussen KS, Staal A, Roggen EL, Sollid LM, Lillevang ST, Barington T, Husby S (2014)
    Treatment of both native and deamidated gluten peptides with an endo-peptidase from Aspergillus niger prevents stimulation of gut-derived gluten-reactive T cells from either children or adults with celiac disease
    Clin Immunol, 153 (2), 323-31
    DOI 10.1016/j.clim.2014.05.009, PubMed 24905137

Publications 2013

1. Bodd M, Ráki M, Bergseng E, Jahnsen J, Lundin KE, Sollid LM (2013)
   Direct cloning and tetramer staining to measure the frequency of intestinal gluten-reactive T cells in celiac disease
   Eur J Immunol, 43 (10), 2605-12
   DOI 10.1002/eji.201343382, PubMed 23775608
2. Brottveit M, Beitnes AC, Tollefsen S, Bratlie JE, Jahnsen FL, Johansen FE, Sollid LM, Lundin KE (2013)
   Mucosal cytokine response after short-term gluten challenge in celiac disease and non-celiac gluten sensitivity
   Am J Gastroenterol, 108 (5), 842-50
   DOI 10.1038/ajg.2013.91, PubMed 23588237
3. Iversen R, Di Niro R, Stamnaes J, Lundin KE, Wilson PC, Sollid LM (2013)
   Transglutaminase 2-specific autoantibodies in celiac disease target clustered, N-terminal epitopes not displayed on the surface of cells
   J Immunol, 190 (12), 5981-91
   DOI 10.4049/jimmunol.1300183, PubMed 23690478
4. Olsen I, Lundin KE, Sollid LM (2013)
   Increased frequency of intestinal CD4+ T cells reactive with mycobacteria in patients with Crohn's disease
   Scand J Gastroenterol, 48 (11), 1278-85
   DOI 10.3109/00365521.2013.837952, PubMed 24131402
5. Olsen I, Sollid LM (2013)
   Pitfalls in determining the cytokine profile of human T cells
   J Immunol Methods, 390 (1-2), 106-12
   DOI 10.1016/j.jim.2013.01.015, PubMed 23416458
6. Qiao SW, Christophersen A, Lundin KE, Sollid LM (2013)
   Biased usage and preferred pairing of α- and β-chains of TCRs specific for an immunodominant gluten epitope in coeliac disease
   Int Immunol, 26 (1), 13-9
   DOI 10.1093/intimm/dxt037, PubMed 24038601
7. Ráki M, Beitnes AC, Lundin KE, Jahnsen J, Jahnsen FL, Sollid LM (2013)
   Plasmacytoid dendritic cells are scarcely represented in the human gut mucosa and are not recruited to the celiac lesion
   Mucosal Immunol, 6 (5), 985-92
   DOI 10.1038/mi.2012.136, PubMed 23340820
8. Sollid LM, Jabri B (2013)
   Triggers and drivers of autoimmunity: lessons from coeliac disease
   Nat Rev Immunol, 13 (4), 294-302
   DOI 10.1038/nri3407, PubMed 23493116
9. Sollid LM, Villadangos JA (2013)
   Antigen processing
   Curr Opin Immunol, 25 (1), 71-3
   DOI 10.1016/j.coi.2012.12.002, PubMed 23287556

Publications 2012

1. Beitnes AC, Ráki M, Brottveit M, Lundin KE, Jahnsen FL, Sollid LM (2012)
   Rapid accumulation of CD14+CD11c+ dendritic cells in gut mucosa of celiac disease after in vivo gluten challenge
   PLoS One, 7 (3), e33556
   DOI 10.1371/journal.pone.0033556, PubMed 22438948
2. Bodd M, Tollefsen S, Bergseng E, Lundin KE, Sollid LM (2012)
   Evidence that HLA-DQ9 confers risk to celiac disease by presence of DQ9-restricted gluten-specific T cells
   Hum Immunol, 73 (4), 376-81
   DOI 10.1016/j.humimm.2012.01.016, PubMed 22342873
3. Dafik L, Albertelli M, Stamnaes J, Sollid LM, Khosla C (2012)
   Activation and inhibition of transglutaminase 2 in mice
   PLoS One, 7 (2), e30642
   DOI 10.1371/journal.pone.0030642, PubMed 22319575
4. Di Niro R, Mesin L, Zheng NY, Stamnaes J, Morrissey M, Lee JH, Huang M, Iversen R, du Pré MF, Qiao SW, Lundin KE, Wilson PC, Sollid LM (2012)
   High abundance of plasma cells secreting transglutaminase 2-specific IgA autoantibodies with limited somatic hypermutation in celiac disease intestinal lesions
   Nat Med, 18 (3), 441-5
   DOI 10.1038/nm.2656, PubMed 22366952
5. Mesin L, Sollid LM, Di Niro R (2012)
   The intestinal B-cell response in celiac disease
   Front Immunol, 3, 313
   DOI 10.3389/fimmu.2012.00313, PubMed 23060888
6. Qiao SW, Iversen R, Ráki M, Sollid LM (2012)
   The adaptive immune response in celiac disease
   Semin Immunopathol, 34 (4), 523-40
   DOI 10.1007/s00281-012-0314-z, PubMed 22535446
7. Sollid LM, Qiao SW, Anderson RP, Gianfrani C, Koning F (2012)
   Nomenclature and listing of celiac disease relevant gluten T-cell epitopes restricted by HLA-DQ molecules
   Immunogenetics, 64 (6), 455-60
   DOI 10.1007/s00251-012-0599-z, PubMed 22322673
8. Tollefsen S, Hotta K, Chen X, Simonsen B, Swaminathan K, Mathews II, Sollid LM, Kim CY (2012)
   Structural and functional studies of trans-encoded HLA-DQ2.3 (DQA1*03:01/DQB1*02:01) protein molecule
   J Biol Chem, 287 (17), 13611-9
   DOI 10.1074/jbc.M111.320374, PubMed 22362761

Publications 2011

1. Abadie V, Sollid LM, Barreiro LB, Jabri B (2011)
   Integration of genetic and immunological insights into a model of celiac disease pathogenesis
   Annu Rev Immunol, 29, 493-525
   DOI 10.1146/annurev-immunol-040210-092915, PubMed 21219178
2. Beitnes AC, Ráki M, Lundin KE, Jahnsen J, Sollid LM, Jahnsen FL (2011)
   Density of CD163+ CD11c+ dendritic cells increases and CD103+ dendritic cells decreases in the coeliac lesion
   Scand J Immunol, 74 (2), 186-94
   DOI 10.1111/j.1365-3083.2011.02549.x, PubMed 21392045
3. Bodd M, Kim CY, Lundin KE, Sollid LM (2011)
   T-cell response to gluten in patients with HLA-DQ2.2 reveals requirement of peptide-MHC stability in celiac disease
   Gastroenterology, 142 (3), 552-61
   DOI 10.1053/j.gastro.2011.11.021, PubMed 22108197
4. Brottveit M, Ráki M, Bergseng E, Fallang LE, Simonsen B, Løvik A, Larsen S, Løberg EM, Jahnsen FL, Sollid LM, Lundin KE (2011)
   Assessing possible celiac disease by an HLA-DQ2-gliadin Tetramer Test
   Am J Gastroenterol, 106 (7), 1318-24
   DOI 10.1038/ajg.2011.23, PubMed 21364548
5. Du Pré MF, Kozijn AE, van Berkel LA, ter Borg MN, Lindenbergh-Kortleve D, Jensen LT, Kooy-Winkelaar Y, Koning F, Boon L, Nieuwenhuis EE, Sollid LM, Fugger L, Samsom JN (2011)
   Tolerance to ingested deamidated gliadin in mice is maintained by splenic, type 1 regulatory T cells
   Gastroenterology, 141 (2), 610-20, 620.e1-2
   DOI 10.1053/j.gastro.2011.04.048, PubMed 21683079
6. du Pré MF, van Berkel LA, Ráki M, van Leeuwen MA, de Ruiter LF, Broere F, Ter Borg MN, Lund FE, Escher JC, Lundin KE, Sollid LM, Kraal G, Nieuwenhuis EE, Samsom JN (2011)
   CD62L(neg)CD38⁺ expression on circulating CD4⁺ T cells identifies mucosally differentiated cells in protein fed mice and in human celiac disease patients and controls
   Am J Gastroenterol, 106 (6), 1147-59
   DOI 10.1038/ajg.2011.24, PubMed 21386831
7. Halvorsen EH, Strønen E, Hammer HB, Goll GL, Sollid LM, Molberg O (2011)
   Interleukin-15 induces interleukin-17 production by synovial T cell lines from patients with rheumatoid arthritis
   Scand J Immunol, 73 (3), 243-9
   DOI 10.1111/j.1365-3083.2010.02498.x, PubMed 21204897
8. Jin X, Stamnaes J, Klöck C, DiRaimondo TR, Sollid LM, Khosla C (2011)
   Activation of extracellular transglutaminase 2 by thioredoxin
   J Biol Chem, 286 (43), 37866-73
   DOI 10.1074/jbc.M111.287490, PubMed 21908620
9. Jüse U, Arntzen M, Højrup P, Fleckenstein B, Sollid LM (2011)
   Assessing high affinity binding to HLA-DQ2.5 by a novel peptide library based approach
   Bioorg Med Chem, 19 (7), 2470-7
   DOI 10.1016/j.bmc.2011.01.057, PubMed 21382721
10. Mesin L, Di Niro R, Thompson KM, Lundin KE, Sollid LM (2011)
    Long-lived plasma cells from human small intestine biopsies secrete immunoglobulins for many weeks in vitro
    J Immunol, 187 (6), 2867-74
    DOI 10.4049/jimmunol.1003181, PubMed 21841131
11. Pollmann S, Stensland M, Halvorsen EH, Sollid LM, Kvien TK, Fleckenstein B, Molberg O (2011)
    Anti-PAD4 autoantibodies in rheumatoid arthritis: levels in serum over time and impact on PAD4 activity as measured with a small synthetic substrate
    Rheumatol Int, 32 (5), 1271-6
    DOI 10.1007/s00296-010-1765-y, PubMed 21267570
12. Qiao SW, Ráki M, Gunnarsen KS, Løset GÅ, Lundin KE, Sandlie I, Sollid LM (2011)
    Posttranslational modification of gluten shapes TCR usage in celiac disease
    J Immunol, 187 (6), 3064-71
    DOI 10.4049/jimmunol.1101526, PubMed 21849672
13. Sollid LM, Jabri B (2011)
    Celiac disease and transglutaminase 2: a model for posttranslational modification of antigens and HLA association in the pathogenesis of autoimmune disorders
    Curr Opin Immunol, 23 (6), 732-8
    DOI 10.1016/j.coi.2011.08.006, PubMed 21917438
14. Sollid LM, Khosla C (2011)
    Novel therapies for coeliac disease
    J Intern Med, 269 (6), 604-13
    DOI 10.1111/j.1365-2796.2011.02376.x, PubMed 21401739

Publications 2010

1. Bodd M, Ráki M, Tollefsen S, Fallang LE, Bergseng E, Lundin KE, Sollid LM (2010)
   HLA-DQ2-restricted gluten-reactive T cells produce IL-21 but not IL-17 or IL-22
   Mucosal Immunol, 3 (6), 594-601
   DOI 10.1038/mi.2010.36, PubMed 20571486
2. Di Niro R, Mesin L, Raki M, Zheng NY, Lund-Johansen F, Lundin KE, Charpilienne A, Poncet D, Wilson PC, Sollid LM (2010)
   Rapid generation of rotavirus-specific human monoclonal antibodies from small-intestinal mucosa
   J Immunol, 185 (9), 5377-83
   DOI 10.4049/jimmunol.1001587, PubMed 20935207
3. Dørum S, Arntzen MØ, Qiao SW, Holm A, Koehler CJ, Thiede B, Sollid LM, Fleckenstein B (2010)
   The preferred substrates for transglutaminase 2 in a complex wheat gluten digest are Peptide fragments harboring celiac disease T-cell epitopes
   PLoS One, 5 (11), e14056
   DOI 10.1371/journal.pone.0014056, PubMed 21124911
4. Gil-Humanes J, Pistón F, Tollefsen S, Sollid LM, Barro F (2010)
   Effective shutdown in the expression of celiac disease-related wheat gliadin T-cell epitopes by RNA interference
   Proc Natl Acad Sci U S A, 107 (39), 17023-8
   DOI 10.1073/pnas.1007773107, PubMed 20829492
5. Jüse U, van de Wal Y, Koning F, Sollid LM, Fleckenstein B (2010)
   Design of new high-affinity peptide ligands for human leukocyte antigen-DQ2 using a positional scanning peptide library
   Hum Immunol, 71 (5), 475-81
   DOI 10.1016/j.humimm.2010.01.021, PubMed 20105447
6. Stamnaes J, Dorum S, Fleckenstein B, Aeschlimann D, Sollid LM (2010)
   Gluten T cell epitope targeting by TG3 and TG6; implications for dermatitis herpetiformis and gluten ataxia
   Amino Acids, 39 (5), 1183-91
   DOI 10.1007/s00726-010-0554-y, PubMed 20300788
7. Stamnaes J, Pinkas DM, Fleckenstein B, Khosla C, Sollid LM (2010)
   Redox regulation of transglutaminase 2 activity
   J Biol Chem, 285 (33), 25402-9
   DOI 10.1074/jbc.M109.097162, PubMed 20547769

Publications 2009

1. Amundsen SS, Rundberg J, Adamovic S, Gudjónsdóttir AH, Ascher H, Ek J, Nilsson S, Lie BA, Naluai AT, Sollid LM (2009)
   Four novel coeliac disease regions replicated in an association study of a Swedish-Norwegian family cohort
   Genes Immun, 11 (1), 79-86
   DOI 10.1038/gene.2009.67, PubMed 19693089
2. Bethune MT, Crespo-Bosque M, Bergseng E, Mazumdar K, Doyle L, Sestak K, Sollid LM, Khosla C (2009)
   Noninflammatory gluten peptide analogs as biomarkers for celiac sprue
   Chem Biol, 16 (8), 868-81
   DOI 10.1016/j.chembiol.2009.07.009, PubMed 19716477
3. Dørum S, Qiao SW, Sollid LM, Fleckenstein B (2009)
   A quantitative analysis of transglutaminase 2-mediated deamidation of gluten peptides: implications for the T-cell response in celiac disease
   J Proteome Res, 8 (4), 1748-55
   DOI 10.1021/pr800960n, PubMed 19239248
4. Fallang LE, Bergseng E, Hotta K, Berg-Larsen A, Kim CY, Sollid LM (2009)
   Differences in the risk of celiac disease associated with HLA-DQ2.5 or HLA-DQ2.2 are related to sustained gluten antigen presentation
   Nat Immunol, 10 (10), 1096-101
   DOI 10.1038/ni.1780, PubMed 19718029
5. Jabri B, Sollid LM (2009)
   Tissue-mediated control of immunopathology in coeliac disease
   Nat Rev Immunol, 9 (12), 858-70
   DOI 10.1038/nri2670, PubMed 19935805
6. Olsen I, Tollefsen S, Aagaard C, Reitan LJ, Bannantine JP, Andersen P, Sollid LM, Lundin KE (2009)
   Isolation of Mycobacterium avium subspecies paratuberculosis reactive CD4 T cells from intestinal biopsies of Crohn's disease patients
   PLoS One, 4 (5), e5641
   DOI 10.1371/journal.pone.0005641, PubMed 19479064
7. Qiao SW, Sollid LM, Blumberg RS (2009)
   Antigen presentation in celiac disease
   Curr Opin Immunol, 21 (1), 111-7
   DOI 10.1016/j.coi.2009.03.004, PubMed 19342211
8. Stenman SM, Venäläinen JI, Lindfors K, Auriola S, Mauriala T, Kaukovirta-Norja A, Jantunen A, Laurila K, Qiao SW, Sollid LM, Männisto PT, Kaukinen K, Mäki M (2009)
   Enzymatic detoxification of gluten by germinating wheat proteases: implications for new treatment of celiac disease
   Ann Med, 41 (5), 390-400
   DOI 10.1080/07853890902878138, PubMed 19353359
9. Stensland ME, Pollmann S, Molberg Ø, Sollid LM, Fleckenstein B (2009)
   Primary sequence, together with other factors, influence peptide deimination by peptidylarginine deiminase-4
   Biol Chem, 390 (2), 99-107
   DOI 10.1515/BC.2009.019, PubMed 19040354

Publications 2008

1. Adamovic S, Amundsen SS, Lie BA, Gudjónsdóttir AH, Ascher H, Ek J, van Heel DA, Nilsson S, Sollid LM, Torinsson Naluai A (2008)
   Association study of IL2/IL21 and FcgRIIa: significant association with the IL2/IL21 region in Scandinavian coeliac disease families
   Genes Immun, 9 (4), 364-7
   DOI 10.1038/gene.2008.27, PubMed 18418394
2. Bergseng E, Sidney J, Sette A, Sollid LM (2008)
   Analysis of the binding of gluten T-cell epitopes to various human leukocyte antigen class II molecules
   Hum Immunol, 69 (2), 94-100
   DOI 10.1016/j.humimm.2008.01.002, PubMed 18361933
3. Fallang LE, Roh S, Holm A, Bergseng E, Yoon T, Fleckenstein B, Bandyopadhyay A, Mellins ED, Sollid LM (2008)
   Complexes of two cohorts of CLIP peptides and HLA-DQ2 of the autoimmune DR3-DQ2 haplotype are poor substrates for HLA-DM
   J Immunol, 181 (8), 5451-5461
   DOI 10.4049/jimmunol.181.8.5451, PubMed 18832702
4. Hovhannisyan Z, Weiss A, Martin A, Wiesner M, Tollefsen S, Yoshida K, Ciszewski C, Curran SA, Murray JA, David CS, Sollid LM, Koning F, Teyton L, Jabri B (2008)
   The role of HLA-DQ8 beta57 polymorphism in the anti-gluten T-cell response in coeliac disease
   Nature, 456 (7221), 534-8
   DOI 10.1038/nature07524, PubMed 19037317
5. Jüse U, Fleckenstein B, Bergseng E, Sollid LM (2008)
   Soluble HLA-DQ2 expressed in S2 cells copurifies with a high affinity insect cell derived protein
   Immunogenetics, 61 (2), 81-9
   DOI 10.1007/s00251-008-0338-7, PubMed 18987854
6. Qiao SW, Kobayashi K, Johansen FE, Sollid LM, Andersen JT, Milford E, Roopenian DC, Lencer WI, Blumberg RS (2008)
   Dependence of antibody-mediated presentation of antigen on FcRn
   Proc Natl Acad Sci U S A, 105 (27), 9337-42
   DOI 10.1073/pnas.0801717105, PubMed 18599440
7. Sollid LM (2008)
   Hunting for celiac disease genes
   Gastroenterology, 134 (3), 869-71
   DOI 10.1053/j.gastro.2008.01.020, PubMed 18325395
8. Sollid LM, Johansen FE (2008)
   Animal models of inflammatory bowel disease at the dawn of the new genetics era
   PLoS Med, 5 (9), e198
   DOI 10.1371/journal.pmed.0050198, PubMed 18828669
9. Sollid LM, Lundin KE (2008)
   Diagnosis and treatment of celiac disease
   Mucosal Immunol, 2 (1), 3-7
   DOI 10.1038/mi.2008.74, PubMed 19079329
10. Stamnaes J, Fleckenstein B, Lund-Johansen F, Sollid LM (2008)
    The monoclonal antibody 6B9 recognizes CD44 and not cell surface transglutaminase 2
    Scand J Immunol, 68 (5), 534-42
    DOI 10.1111/j.1365-3083.2008.02173.x, PubMed 18803608
11. Stamnaes J, Fleckenstein B, Sollid LM (2008)
    The propensity for deamidation and transamidation of peptides by transglutaminase 2 is dependent on substrate affinity and reaction conditions
    Biochim Biophys Acta, 1784 (11), 1804-11
    DOI 10.1016/j.bbapap.2008.08.011, PubMed 18793760
12. Tunheim G, Schjetne KW, Rasmussen IB, Sollid LM, Sandlie I, Bogen B (2008)
    Recombinant antibodies for delivery of antigen: a single loop between beta-strands in the constant region can accommodate long, complex and tandem T cell epitopes
    Int Immunol, 20 (3), 295-306
    DOI 10.1093/intimm/dxm141, PubMed 18252695

Publications 2007

1. Adamovic S, Amundsen SS, Lie BA, Hellqvist A, Gudjónsdóttir AH, Ek J, Nilsson S, Wahlström J, Ascher H, Sollid LM, Naluai AT (2007)
   Fine mapping study in Scandinavian families suggests association between coeliac disease and haplotypes in chromosome region 5q32
   Tissue Antigens, 71 (1), 27-34
   DOI 10.1111/j.1399-0039.2007.00955.x, PubMed 17971050
2. Amundsen SS, Adamovic S, Hellqvist A, Nilsson S, Gudjónsdóttir AH, Ascher H, Ek J, Larsson K, Wahlström J, Lie BA, Sollid LM, Naluai AT (2007)
   A comprehensive screen for SNP associations on chromosome region 5q31-33 in Swedish/Norwegian celiac disease families
   Eur J Hum Genet, 15 (9), 980-7
   DOI 10.1038/sj.ejhg.5201870, PubMed 17551518
3. Ráki M, Fallang LE, Brottveit M, Bergseng E, Quarsten H, Lundin KE, Sollid LM (2007)
   Tetramer visualization of gut-homing gluten-specific T cells in the peripheral blood of celiac disease patients
   Proc Natl Acad Sci U S A, 104 (8), 2831-6
   DOI 10.1073/pnas.0608610104, PubMed 17307878
4. Ráki M, Schjetne KW, Stamnaes J, Molberg Ø, Jahnsen FL, Issekutz TB, Bogen B, Sollid LM (2007)
   Surface expression of transglutaminase 2 by dendritic cells and its potential role for uptake and presentation of gluten peptides to T cells
   Scand J Immunol, 65 (3), 213-20
   DOI 10.1111/j.1365-3083.2006.01881.x, PubMed 17309775
5. Xia J, Bergseng E, Fleckenstein B, Siegel M, Kim CY, Khosla C, Sollid LM (2007)
   Cyclic and dimeric gluten peptide analogues inhibiting DQ2-mediated antigen presentation in celiac disease
   Bioorg Med Chem, 15 (20), 6565-73
   DOI 10.1016/j.bmc.2007.07.001, PubMed 17681795

Publications 2006

1. Amundsen SS, Monsuur AJ, Wapenaar MC, Lie BA, Ek J, Gudjónsdóttir AH, Ascher H, Wijmenga C, Sollid LM (2006)
   Association analysis of MYO9B gene polymorphisms with celiac disease in a Swedish/Norwegian cohort
   Hum Immunol, 67 (4-5), 341-5
   DOI 10.1016/j.humimm.2006.03.020, PubMed 16720215
2. Amundsen SS, Vatn M, IBSEN study group, Wijmenga C, Sollid LM, Lie BA (2006)
   Association analysis of MYO9B gene polymorphisms and inflammatory bowel disease in a Norwegian cohort
   Tissue Antigens, 68 (3), 249-52
   DOI 10.1111/j.1399-0039.2006.00665.x, PubMed 16948647
3. Bethune MT, Strop P, Tang Y, Sollid LM, Khosla C (2006)
   Heterologous expression, purification, refolding, and structural-functional characterization of EP-B2, a self-activating barley cysteine endoprotease
   Chem Biol, 13 (6), 637-47
   DOI 10.1016/j.chembiol.2006.04.008, PubMed 16793521
4. Bjørnvold M, Amundsen SS, Stene LC, Joner G, Dahl-Jørgensen K, Njølstad PR, Ek J, Ascher H, Gudjònsdòttir AH, Lie BA, Skinningsrud B, Akselsen HE, Rønningen KS, Sollid LM, Undlien DE (2006)
   FOXP3 polymorphisms in type 1 diabetes and coeliac disease
   J Autoimmun, 27 (2), 140-4
   DOI 10.1016/j.jaut.2006.06.007, PubMed 16996248
5. Holm A, Rise F, Sessler N, Sollid LM, Undheim K, Fleckenstein B (2006)
   Specific modification of peptide-bound citrulline residues
   Anal Biochem, 352 (1), 68-76
   DOI 10.1016/j.ab.2006.02.007, PubMed 16540076
6. Jabri B, Sollid LM (2006)
   Mechanisms of disease: immunopathogenesis of celiac disease
   Nat Clin Pract Gastroenterol Hepatol, 3 (9), 516-25
   DOI 10.1038/ncpgasthep0582, PubMed 16951668
7. Molberg Ø, Sollid LM (2006)
   A gut feeling for joint inflammation - using coeliac disease to understand rheumatoid arthritis
   Trends Immunol, 27 (4), 188-94
   DOI 10.1016/j.it.2006.02.006, PubMed 16530013
8. Ráki M, Tollefsen S, Molberg Ø, Lundin KE, Sollid LM, Jahnsen FL (2006)
   A unique dendritic cell subset accumulates in the celiac lesion and efficiently activates gluten-reactive T cells
   Gastroenterology, 131 (2), 428-38
   DOI 10.1053/j.gastro.2006.06.002, PubMed 16890596
9. Sollid LM, Vaage JT (2006)
   Cross-dressing T cells go wild
   Nat Med, 12 (6), 611-2
   DOI 10.1038/nm0606-611, PubMed 16761002
10. Spurkland A, Sollid LM (2006)
    Mapping genes and pathways in autoimmune disease
    Trends Immunol, 27 (7), 336-42
    DOI 10.1016/j.it.2006.05.008, PubMed 16753344
11. Tollefsen S, Arentz-Hansen H, Fleckenstein B, Molberg O, Ráki M, Kwok WW, Jung G, Lundin KE, Sollid LM (2006)
    HLA-DQ2 and -DQ8 signatures of gluten T cell epitopes in celiac disease
    J Clin Invest, 116 (8), 2226-36
    DOI 10.1172/JCI27620, PubMed 16878175
12. Xia J, Siegel M, Bergseng E, Sollid LM, Khosla C (2006)
    Inhibition of HLA-DQ2-mediated antigen presentation by analogues of a high affinity 33-residue peptide from alpha2-gliadin
    J Am Chem Soc, 128 (6), 1859-67
    DOI 10.1021/ja056423o, PubMed 16464085

Publications 2005

1. Bergseng E, Xia J, Kim CY, Khosla C, Sollid LM (2005)
   Main chain hydrogen bond interactions in the binding of proline-rich gluten peptides to the celiac disease-associated HLA-DQ2 molecule
   J Biol Chem, 280 (23), 21791-6
   DOI 10.1074/jbc.M501558200, PubMed 15826953
2. Fleckenstein B, Qiao SW, Larsen MR, Roepstorff P, Sollid LM, Jung G (2005)
   Molecular characterization of covalent transglutaminase (TG2)-gliadin peptide complexes involved in coeliac disease
   Peptides 2004, Proceedings: BRIDGES BETWEEN DISCIPLINES, 73-74
3. Khosla C, Gray GM, Sollid LM (2005)
   Putative efficacy and dosage of prolyl endopeptidase for digesting and detoxifying gliadin peptides
   Gastroenterology, 129 (4), 1362-3; author reply 1363
   DOI 10.1053/j.gastro.2005.08.044, PubMed 16230098
4. Koning F, Schuppan D, Cerf-Bensussan N, Sollid LM (2005)
   Pathomechanisms in celiac disease
   Best Pract Res Clin Gastroenterol, 19 (3), 373-87
   DOI 10.1016/j.bpg.2005.02.003, PubMed 15925843
5. Molberg O, Uhlen AK, Jensen T, Flaete NS, Fleckenstein B, Arentz-Hansen H, Raki M, Lundin KE, Sollid LM (2005)
   Mapping of gluten T-cell epitopes in the bread wheat ancestors: implications for celiac disease
   Gastroenterology, 128 (2), 393-401
   DOI 10.1053/j.gastro.2004.11.003, PubMed 15685550
6. Qiao SW, Bergseng E, Molberg O, Jung G, Fleckenstein B, Sollid LM (2005)
   Refining the rules of gliadin T cell epitope binding to the disease-associated DQ2 molecule in celiac disease: importance of proline spacing and glutamine deamidation
   J Immunol, 175 (1), 254-61
   DOI 10.4049/jimmunol.175.1.254, PubMed 15972656
7. Qiao SW, Piper J, Haraldsen G, Oynebråten I, Fleckenstein B, Molberg O, Khosla C, Sollid LM (2005)
   Tissue transglutaminase-mediated formation and cleavage of histamine-gliadin complexes: biological effects and implications for celiac disease
   J Immunol, 174 (3), 1657-63
   DOI 10.4049/jimmunol.174.3.1657, PubMed 15661929
8. Ráki M, Molberg O, Tollefsen S, Lundin KE, Sollid LM (2005)
   The effects of atorvastatin on gluten-induced intestinal T cell responses in coeliac disease
   Clin Exp Immunol, 142 (2), 333-40
   DOI 10.1111/j.1365-2249.2005.02915.x, PubMed 16232221
9. Shan L, Qiao SW, Arentz-Hansen H, Molberg Ø, Gray GM, Sollid LM, Khosla C (2005)
   Identification and analysis of multivalent proteolytically resistant peptides from gluten: implications for celiac sprue
   J Proteome Res, 4 (5), 1732-41
   DOI 10.1021/pr050173t, PubMed 16212427
10. Sollid LM (2005)
    Celiac disease as a model of gastrointestinal inflammation
    J Pediatr Gastroenterol Nutr, 40 Suppl 1, S41-2
    DOI 10.1097/00005176-200504001-00025, PubMed 15805849
11. Sollid LM, Jabri B (2005)
    Is celiac disease an autoimmune disorder?
    Curr Opin Immunol, 17 (6), 595-600
    DOI 10.1016/j.coi.2005.09.015, PubMed 16214317
12. Sollid LM, Khosla C (2005)
    Future therapeutic options for celiac disease
    Nat Clin Pract Gastroenterol Hepatol, 2 (3), 140-7
    DOI 10.1038/ncpgasthep0111, PubMed 16265155
13. Sollid LM, Lie BA (2005)
    Celiac disease genetics: current concepts and practical applications
    Clin Gastroenterol Hepatol, 3 (9), 843-51
    DOI 10.1016/s1542-3565(05)00532-x, PubMed 16234020
14. Viken MK, Amundsen SS, Kvien TK, Boberg KM, Gilboe IM, Lilleby V, Sollid LM, Førre OT, Thorsby E, Smerdel A, Lie BA (2005)
    Association analysis of the 1858C>T polymorphism in the PTPN22 gene in juvenile idiopathic arthritis and other autoimmune diseases
    Genes Immun, 6 (3), 271-3
    DOI 10.1038/sj.gene.6364178, PubMed 15759012
15. Xia J, Sollid LM, Khosla C (2005)
    Equilibrium and kinetic analysis of the unusual binding behavior of a highly immunogenic gluten peptide to HLA-DQ2
    Biochemistry, 44 (11), 4442-9
    DOI 10.1021/bi047747c, PubMed 15766274

Publications 2004

1. Amundsen SS, Naluai AT, Ascher H, Ek J, Gudjónsdóttir AH, Wahlström J, Lie BA, Sollid LM (2004)
   Genetic analysis of the CD28/CTLA4/ICOS (CELIAC3) region in coeliac disease
   Tissue Antigens, 64 (5), 593-9
   DOI 10.1111/j.1399-0039.2004.00312.x, PubMed 15496203
2. Arentz-Hansen H, Fleckenstein B, Molberg Ø, Scott H, Koning F, Jung G, Roepstorff P, Lundin KE, Sollid LM (2004)
   The molecular basis for oat intolerance in patients with celiac disease
   PLoS Med, 1 (1), e1
   DOI 10.1371/journal.pmed.0010001, PubMed 15526039
3. Fleckenstein B, Qiao SW, Larsen MR, Jung G, Roepstorff P, Sollid LM (2004)
   Molecular characterization of covalent complexes between tissue transglutaminase and gliadin peptides
   J Biol Chem, 279 (17), 17607-16
   DOI 10.1074/jbc.M310198200, PubMed 14747475
4. Holopainen P, Naluai AT, Moodie S, Percopo S, Coto I, Clot F, Ascher H, Sollid L, Ciclitira P, Greco L, Clerget-Darpoux F, Partanen J, Members of the European Genetics Cluster on Coeliac Disease (2004)
   Candidate gene region 2q33 in European families with coeliac disease
   Tissue Antigens, 63 (3), 212-22
   DOI 10.1111/j.1399-0039.2004.00189.x, PubMed 14989710
5. Kim CY, Quarsten H, Bergseng E, Khosla C, Sollid LM (2004)
   Structural basis for HLA-DQ2-mediated presentation of gluten epitopes in celiac disease
   Proc Natl Acad Sci U S A, 101 (12), 4175-9
   DOI 10.1073/pnas.0306885101, PubMed 15020763
6. Margaritte-Jeannin P, Babron MC, Bourgey M, Louka AS, Clot F, Percopo S, Coto I, Hugot JP, Ascher H, Sollid LM, Greco L, Clerget-Darpoux F (2004)
   HLA-DQ relative risks for coeliac disease in European populations: a study of the European Genetics Cluster on Coeliac Disease
   Tissue Antigens, 63 (6), 562-7
   DOI 10.1111/j.0001-2815.2004.00237.x, PubMed 15140032
7. Marti T, Molberg O, Li Q, Gray GM, Khosla C, Sollid LM (2004)
   Prolyl endopeptidase-mediated destruction of T cell epitopes in whole gluten: chemical and immunological characterization
   J Pharmacol Exp Ther, 312 (1), 19-26
   DOI 10.1124/jpet.104.073312, PubMed 15358813
8. Qiao SW, Bergseng E, Molberg Ø, Xia J, Fleckenstein B, Khosla C, Sollid LM (2004)
   Antigen presentation to celiac lesion-derived T cells of a 33-mer gliadin peptide naturally formed by gastrointestinal digestion
   J Immunol, 173 (3), 1757-62
   DOI 10.4049/jimmunol.173.3.1757, PubMed 15265905
9. Shan L, Marti T, Sollid LM, Gray GM, Khosla C (2004)
   Comparative biochemical analysis of three bacterial prolyl endopeptidases: implications for coeliac sprue
   Biochem J, 383 (Pt 2), 311-8
   DOI 10.1042/BJ20040907, PubMed 15245330
10. Sollid LM (2004)
    Intraepithelial lymphocytes in celiac disease: license to kill revealed
    Immunity, 21 (3), 303-4
    DOI 10.1016/j.immuni.2004.08.002, PubMed 15357941
11. Sollid LM, Gray GM (2004)
    A role for bacteria in celiac disease?
    Am J Gastroenterol, 99 (5), 905-6
    DOI 10.1111/j.1572-0241.2004.04158.x, PubMed 15128358

Publications 2003

1. Babron MC, Nilsson S, Adamovic S, Naluai AT, Wahlström J, Ascher H, Ciclitira PJ, Sollid LM, Partanen J, Greco L, Clerget-Darpoux F, European Genetics Cluster on Coeliac Disease (2003)
   Meta and pooled analysis of European coeliac disease data
   Eur J Hum Genet, 11 (11), 828-34
   DOI 10.1038/sj.ejhg.5201051, PubMed 14571266
2. Karell K, Louka AS, Moodie SJ, Ascher H, Clot F, Greco L, Ciclitira PJ, Sollid LM, Partanen J, European Genetics Cluster on Celiac Disease (2003)
   HLA types in celiac disease patients not carrying the DQA1*05-DQB1*02 (DQ2) heterodimer: results from the European Genetics Cluster on Celiac Disease
   Hum Immunol, 64 (4), 469-77
   DOI 10.1016/s0198-8859(03)00027-2, PubMed 12651074
3. Louka AS, Lie BA, Talseth B, Ascher H, Ek J, Gudjónsdóttir AH, Sollid LM (2003)
   Coeliac disease patients carry conserved HLA-DR3-DQ2 haplotypes revealed by association of TNF alleles
   Immunogenetics, 55 (5), 339-43
   DOI 10.1007/s00251-003-0586-5, PubMed 12845502
4. Louka AS, Moodie SJ, Karell K, Bolognesi E, Ascher H, Greco L, Momigliano-Richiardi P, Partanen J, Ciclitira PJ, Sollid LM, European Genetics Cluster on Celiac Disease (2003)
   A collaborative European search for non-DQA1*05-DQB1*02 celiac disease loci on HLA-DR3 haplotypes: analysis of transmission from homozygous parents
   Hum Immunol, 64 (3), 350-8
   DOI 10.1016/s0198-8859(02)00822-4, PubMed 12590980
5. Louka AS, Sollid LM (2003)
   HLA in coeliac disease: unravelling the complex genetics of a complex disorder
   Tissue Antigens, 61 (2), 105-17
   DOI 10.1034/j.1399-0039.2003.00017.x, PubMed 12694579
6. Lundin KE, Farstad IN, Sollid LM (2003)
   [Coeliac disease--new clinical findings and diagnostic tools]
   Tidsskr Nor Laegeforen, 123 (22), 3226-9
   PubMed 14714016
7. Lundin KE, Sollid LM (2003)
   Gliadin peptide specific intestinal T cells in coeliac disease
   Gut, 52 (2), 162
   DOI 10.1136/gut.52.2.162, PubMed 12524389
8. Molberg Ø, Solheim Flaete N, Jensen T, Lundin KE, Arentz-Hansen H, Anderson OD, Kjersti Uhlen A, Sollid LM (2003)
   Intestinal T-cell responses to high-molecular-weight glutenins in celiac disease
   Gastroenterology, 125 (2), 337-44
   DOI 10.1016/s0016-5085(03)00890-4, PubMed 12891534
9. Sollid LM, Lundin KE (2003)
   [Disease mechanisms in coeliac disease]
   Tidsskr Nor Laegeforen, 123 (22), 3230-3
   PubMed 14714017

Publications 2002

1. Arentz-Hansen H, McAdam SN, Molberg Ø, Fleckenstein B, Lundin KE, Jørgensen TJ, Jung G, Roepstorff P, Sollid LM (2002)
   Celiac lesion T cells recognize epitopes that cluster in regions of gliadins rich in proline residues
   Gastroenterology, 123 (3), 803-9
   DOI 10.1053/gast.2002.35381, PubMed 12198706
2. Fleckenstein B, Molberg Ø, Qiao SW, Schmid DG, von der Mülbe F, Elgstøen K, Jung G, Sollid LM (2002)
   Gliadin T cell epitope selection by tissue transglutaminase in celiac disease. Role of enzyme specificity and pH influence on the transamidation versus deamidation process
   J Biol Chem, 277 (37), 34109-16
   DOI 10.1074/jbc.M204521200, PubMed 12093810
3. Louka AS, Nilsson S, Olsson M, Talseth B, Lie BA, Ek J, Gudjónsdóttir AH, Ascher H, Sollid LM (2002)
   HLA in coeliac disease families: a novel test of risk modification by the 'other' haplotype when at least one DQA1*05-DQB1*02 haplotype is carried
   Tissue Antigens, 60 (2), 147-54
   DOI 10.1034/j.1399-0039.2002.600205.x, PubMed 12392509
4. Louka AS, Stensby EK, Ek J, Gudjónsdóttir AH, Ascher H, Sollid LM (2002)
   Coeliac disease candidate genes: no association with functional polymorphisms in matrix metalloproteinase 1 and 3 gene promoters
   Scand J Gastroenterol, 37 (8), 931-5
   DOI 10.1080/003655202760230892, PubMed 12229968
5. Louka AS, Torinsson Naluai A, D'Alfonso S, Ascher H, Coto I, Ek J, Giordano M, Gudjónsdóttir AH, Mellai M, Momigliano-Richiardi P, Percopo S, Samuelsson L, Wahlström J, Greco L, Sollid LM (2002)
   The IL12B gene does not confer susceptibility to coeliac disease
   Tissue Antigens, 59 (1), 70-2
   DOI 10.1034/j.1399-0039.2002.590117.x, PubMed 11972887
6. Lunde E, Lauvrak V, Rasmussen IB, Schjetne KW, Thompson KM, Michaelsen TE, Brekke OH, Sollid LM, Bogen B, Sandlie I (2002)
   Troybodies and pepbodies
   Biochem Soc Trans, 30 (4), 500-6
   DOI 10.1042/bst0300500, PubMed 12196123
7. Schjetne KW, Thompson KM, Aarvak T, Fleckenstein B, Sollid LM, Bogen B (2002)
   A mouse C kappa-specific T cell clone indicates that DC-SIGN is an efficient target for antibody-mediated delivery of T cell epitopes for MHC class II presentation
   Int Immunol, 14 (12), 1423-30
   DOI 10.1093/intimm/dxf110, PubMed 12456590
8. Shan L, Molberg Ø, Parrot I, Hausch F, Filiz F, Gray GM, Sollid LM, Khosla C (2002)
   Structural basis for gluten intolerance in celiac sprue
   Science, 297 (5590), 2275-9
   DOI 10.1126/science.1074129, PubMed 12351792
9. Sollid LM (2002)
   Coeliac disease: dissecting a complex inflammatory disorder
   Nat Rev Immunol, 2 (9), 647-55
   DOI 10.1038/nri885, PubMed 12209133
10. Sollid LM (2002)
    Breast milk against coeliac disease
    Gut, 51 (6), 767-8
    DOI 10.1136/gut.51.6.767, PubMed 12427772

Publications 2001

1. McAdam SN, Fleckenstein B, Rasmussen IB, Schmid DG, Sandlie I, Bogen B, Viner NJ, Sollid LM (2001)
   T cell recognition of the dominant I-A(k)-restricted hen egg lysozyme epitope: critical role for asparagine deamidation
   J Exp Med, 193 (11), 1239-46
   DOI 10.1084/jem.193.11.1239, PubMed 11390431
2. Molberg O, McAdam S, Lundin KE, Kristiansen C, Arentz-Hansen H, Kett K, Sollid LM (2001)
   T cells from celiac disease lesions recognize gliadin epitopes deamidated in situ by endogenous tissue transglutaminase
   Eur J Immunol, 31 (5), 1317-23
   DOI 10.1002/1521-4141(200105)31:5<1317::AID-IMMU1317>3.0.CO;2-I, PubMed 11465088
3. Naluai AT, Nilsson S, Gudjónsdóttir AH, Louka AS, Ascher H, Ek J, Hallberg B, Samuelsson L, Kristiansson B, Martinsson T, Nerman O, Sollid LM, Wahlström J (2001)
   Genome-wide linkage analysis of Scandinavian affected sib-pairs supports presence of susceptibility loci for celiac disease on chromosomes 5 and 11
   Eur J Hum Genet, 9 (12), 938-44
   DOI 10.1038/sj.ejhg.5200752, PubMed 11840196
4. Quarsten H, McAdam SN, Jensen T, Arentz-Hansen H, Molberg Ø, Lundin KE, Sollid LM (2001)
   Staining of celiac disease-relevant T cells by peptide-DQ2 multimers
   J Immunol, 167 (9), 4861-8
   DOI 10.4049/jimmunol.167.9.4861, PubMed 11673490
5. Sollid LM, Lundin KE (2001)
   Coeliac disease. An inappropriate immune response
   Lancet, 358 Suppl, S13
   DOI 10.1016/s0140-6736(01)07026-x, PubMed 11784562
6. Sollid LM, McAdam SN, Molberg O, Quarsten H, Arentz-Hansen H, Louka AS, Lundin KE (2001)
   Genes and environment in celiac disease
   Acta Odontol Scand, 59 (3), 183-6
   DOI 10.1080/000163501750266792, PubMed 11501889

Publications 2000

1. Arentz-Hansen EH, McAdam SN, Molberg O, Kristiansen C, Sollid LM (2000)
   Production of a panel of recombinant gliadins for the characterisation of T cell reactivity in coeliac disease
   Gut, 46 (1), 46-51
   DOI 10.1136/gut.46.1.46, PubMed 10601054
2. Arentz-Hansen H, Körner R, Molberg O, Quarsten H, Vader W, Kooy YM, Lundin KE, Koning F, Roepstorff P, Sollid LM, McAdam SN (2000)
   The intestinal T cell response to alpha-gliadin in adult celiac disease is focused on a single deamidated glutamine targeted by tissue transglutaminase
   J Exp Med, 191 (4), 603-12
   DOI 10.1084/jem.191.4.603, PubMed 10684852
3. McAdam SN, Sollid LM (2000)
   Getting to grips with gluten
   Gut, 47 (6), 743-5
   DOI 10.1136/gut.47.6.743, PubMed 11076867
4. Molberg O, McAdam SN, Lundin KE, Sollid LM (2000)
   Studies of gliadin-specific T-cells in celiac disease
   Methods Mol Med, 41, 105-24
   DOI 10.1385/1-59259-082-9:105, PubMed 21374436
5. Molberg O, McAdam SN, Sollid LM (2000)
   Role of tissue transglutaminase in celiac disease
   J Pediatr Gastroenterol Nutr, 30 (3), 232-40
   DOI 10.1097/00005176-200003000-00005, PubMed 10749404
6. Naluai AT, Nilsson S, Samuelsson L, Gudjónsdóttir AH, Ascher H, Ek J, Hallberg B, Kristiansson B, Martinsson T, Nerman O, Sollid LM, Wahlström J (2000)
   The CTLA4/CD28 gene region on chromosome 2q33 confers susceptibility to celiac disease in a way possibly distinct from that of type 1 diabetes and other chronic inflammatory disorders
   Tissue Antigens, 56 (4), 350-5
   DOI 10.1034/j.1399-0039.2000.560407.x, PubMed 11098935
7. Sollid LM (2000)
   Molecular basis of celiac disease
   Annu Rev Immunol, 18, 53-81
   DOI 10.1146/annurev.immunol.18.1.53, PubMed 10837052

Publications 1999

1. Lie BA, Sollid LM, Ascher H, Ek J, Akselsen HE, Rønningen KS, Thorsby E, Undlien DE (1999)
   A gene telomeric of the HLA class I region is involved in predisposition to both type 1 diabetes and coeliac disease
   Tissue Antigens, 54 (2), 162-8
   DOI 10.1034/j.1399-0039.1999.540207.x, PubMed 10488743
2. Quarsten H, Molberg O, Fugger L, McAdam SN, Sollid LM (1999)
   HLA binding and T cell recognition of a tissue transglutaminase-modified gliadin epitope
   Eur J Immunol, 29 (8), 2506-14
   DOI 10.1002/(SICI)1521-4141(199908)29:08<2506::AID-IMMU2506>3.0.CO;2-9, PubMed 10458765

Publications 1998

1. Haraldsen G, Sollid LM, Bakke O, Farstad IN, Kvale D, Molberg, Norstein J, Stang E, Brandtzaeg P (1998)
   Major histocompatibility complex class II-dependent antigen presentation by human intestinal endothelial cells
   Gastroenterology, 114 (4), 649-56
   DOI 10.1016/s0016-5085(98)70578-5, PubMed 9516385
2. Molberg O, Lundin KE, Nilsen EM, Scott H, Kett K, Brandtzaeg P, Thorsby E, Sollid LM (1998)
   HLA restriction patterns of gliadin- and astrovirus-specific CD4+ T cells isolated in parallel from the small intestine of celiac disease patients
   Tissue Antigens, 52 (5), 407-15
   DOI 10.1111/j.1399-0039.1998.tb03066.x, PubMed 9864029
3. Molberg O, Mcadam SN, Körner R, Quarsten H, Kristiansen C, Madsen L, Fugger L, Scott H, Norén O, Roepstorff P, Lundin KE, Sjöström H, Sollid LM (1998)
   Tissue transglutaminase selectively modifies gliadin peptides that are recognized by gut-derived T cells in celiac disease
   Nat Med, 4 (6), 713-7
   DOI 10.1038/nm0698-713, PubMed 9623982
4. Molberg O, Nilsen EM, Sollid LM, Scott H, Brandtzaeg P, Thorsby E, Lundin KE (1998)
   CD4+ T cells with specific reactivity against astrovirus isolated from normal human small intestine
   Gastroenterology, 114 (1), 115-22
   DOI 10.1016/s0016-5085(98)70639-0, PubMed 9428225
5. Nilsen EM, Jahnsen FL, Lundin KE, Johansen FE, Fausa O, Sollid LM, Jahnsen J, Scott H, Brandtzaeg P (1998)
   Gluten induces an intestinal cytokine response strongly dominated by interferon gamma in patients with celiac disease
   Gastroenterology, 115 (3), 551-63
   DOI 10.1016/s0016-5085(98)70134-9, PubMed 9721152
6. Quarsten H, Paulsen G, Johansen BH, Thorpe CJ, Holm A, Buus S, Sollid LM (1998)
   The P9 pocket of HLA-DQ2 (non-Aspbeta57) has no particular preference for negatively charged anchor residues found in other type 1 diabetes-predisposing non-Aspbeta57 MHC class II molecules
   Int Immunol, 10 (8), 1229-36
   DOI 10.1093/intimm/10.8.1229, PubMed 9723710
7. Sjöström H, Lundin KE, Molberg O, Körner R, McAdam SN, Anthonsen D, Quarsten H, Norén O, Roepstorff P, Thorsby E, Sollid LM (1998)
   Identification of a gliadin T-cell epitope in coeliac disease: general importance of gliadin deamidation for intestinal T-cell recognition
   Scand J Immunol, 48 (2), 111-5
   DOI 10.1046/j.1365-3083.1998.00397.x, PubMed 9716100
8. Sollid LM (1998)
   Genetics of the immune response to gluten in coeliac disease
   Dig Dis, 16 (6), 345-7
   DOI 10.1159/000016889, PubMed 10207220
9. Sollid LM, Scott H (1998)
   New tool to predict celiac disease on its way to the clinics
   Gastroenterology, 115 (6), 1584-6
   DOI 10.1016/s0016-5085(98)70040-x, PubMed 9834289
10. Straumfors A, Johansen BH, Vartdal F, Sollid LM, Thorsby E, Buus S (1998)
    A peptide-binding assay for the disease-associated HLA-DQ8 molecule
    Scand J Immunol, 47 (6), 561-7
    DOI 10.1046/j.1365-3083.1998.00342.x, PubMed 9652824
11. van de Wal Y, Kooy YM, van Veelen PA, Peña SA, Mearin LM, Molberg O, Lundin KE, Sollid LM, Mutis T, Benckhuijsen WE, Drijfhout JW, Koning F (1998)
    Small intestinal T cells of celiac disease patients recognize a natural pepsin fragment of gliadin
    Proc Natl Acad Sci U S A, 95 (17), 10050-4
    DOI 10.1073/pnas.95.17.10050, PubMed 9707598

Publications 1997

1. Lundin KE, Sollid LM, Anthonsen D, Norén O, Molberg O, Thorsby E, Sjöström H (1997)
   Heterogeneous reactivity patterns of HLA-DQ-restricted, small intestinal T-cell clones from patients with celiac disease
   Gastroenterology, 112 (3), 752-9
   DOI 10.1053/gast.1997.v112.pm9041236, PubMed 9041236
2. Molberg O, Kett K, Scott H, Thorsby E, Sollid LM, Lundin KE (1997)
   Gliadin specific, HLA DQ2-restricted T cells are commonly found in small intestinal biopsies from coeliac disease patients, but not from controls
   Scand J Immunol, 46 (1), 103-8
   PubMed 9246215
3. Molberg O, Kett K, Scott H, Thorsby E, Sollid LM, Lundin KE (1997)
   Gliadin specific, HLA DQ2-restricted T cells are commonly found in small intestinal biopsies from coeliac disease patients, but not from controls
   Scand J Immunol, 46 (3), 103-9
   DOI 10.1046/j.1365-3083.1997.d01-93.x, PubMed 9315123
4. Scott H, Nilsen E, Sollid LM, Lundin KE, Rugtveit J, Molberg O, Thorsby E, Brandtzaeg P (1997)
   Immunopathology of gluten-sensitive enteropathy
   Springer Semin Immunopathol, 18 (4), 535-53
   DOI 10.1007/BF00824057, PubMed 9144869
5. Sollid LM, Molberg O, McAdam S, Lundin KE (1997)
   Autoantibodies in coeliac disease: tissue transglutaminase--guilt by association?
   Gut, 41 (6), 851-2
   DOI 10.1136/gut.41.6.851, PubMed 9462222
6. Spurkland A, Ingvarsson G, Falk ES, Knutsen I, Sollid LM, Thorsby E (1997)
   Dermatitis herpetiformis and celiac disease are both primarily associated with the HLA-DQ (alpha 1*0501, beta 1*02) or the HLA-DQ (alpha 1*03, beta 1*0302) heterodimers
   Tissue Antigens, 49 (1), 29-34
   DOI 10.1111/j.1399-0039.1997.tb02706.x, PubMed 9027962

Publications 1996

1. Johansen BH, Gjertsen HA, Vartdal F, Buus S, Thorsby E, Lundin KE, Sollid LM (1996)
   Binding of peptides from the N-terminal region of alpha-gliadin to the celiac disease-associated HLA-DQ2 molecule assessed in biochemical and T cell assays
   Clin Immunol Immunopathol, 79 (3), 288-93
   DOI 10.1006/clin.1996.0081, PubMed 8635288
2. Johansen BH, Jensen T, Thorpe CJ, Vartdal F, Thorsby E, Sollid LM (1996)
   Both alpha and beta chain polymorphisms determine the specificity of the disease-associated HLA-DQ2 molecules, with beta chain residues being most influential
   Immunogenetics, 45 (2), 142-50
   DOI 10.1007/s002510050182, PubMed 8952964
3. Johansen BH, Vartdal F, Eriksen JA, Thorsby E, Sollid LM (1996)
   Identification of a putative motif for binding of peptides to HLA-DQ2
   Int Immunol, 8 (2), 177-82
   DOI 10.1093/intimm/8.2.177, PubMed 8671602
4. Ploski R, Ascher H, Sollid LM (1996)
   HLA genotypes and the increased incidence of coeliac disease in Sweden
   Scand J Gastroenterol, 31 (11), 1092-7
   DOI 10.3109/00365529609036892, PubMed 8938902
5. Vartdal F, Johansen BH, Friede T, Thorpe CJ, Stevanović S, Eriksen JE, Sletten K, Thorsby E, Rammensee HG, Sollid LM (1996)
   The peptide binding motif of the disease associated HLA-DQ (alpha 1* 0501, beta 1* 0201) molecule
   Eur J Immunol, 26 (11), 2764-72
   DOI 10.1002/eji.1830261132, PubMed 8921967

Publications 1995

1. Jensen K, Sollid LM, Scott H, Paulsen G, Kett K, Thorsby E, Lundin KE (1995)
   Gliadin-specific T cell responses in peripheral blood of healthy individuals involve T cells restricted by the coeliac disease associated DQ2 heterodimer
   Scand J Immunol, 42 (1), 166-70
   DOI 10.1111/j.1365-3083.1995.tb03640.x, PubMed 7543212
2. Mignot E, Kimura A, Abbal M, Thorsby E, Lin X, Voros A, Macaubas C, Bouissou F, Sollid LM, Cambon-Thomsen A (1995)
   DQCAR microsatellite polymorphisms in three selected HLA class II-associated diseases
   Tissue Antigens, 46 (4), 299-304
   DOI 10.1111/j.1399-0039.1995.tb02496.x, PubMed 8560448
3. Nilsen EM, Lundin KE, Krajci P, Scott H, Sollid LM, Brandtzaeg P (1995)
   Gluten specific, HLA-DQ restricted T cells from coeliac mucosa produce cytokines with Th1 or Th0 profile dominated by interferon gamma
   Gut, 37 (6), 766-76
   DOI 10.1136/gut.37.6.766, PubMed 8537046
4. Paulsen G, Lundin KE, Gjertsen HA, Hansen T, Sollid LM, Thorsby E (1995)
   HLA-DQ2-restricted T-cell recognition of gluten-derived peptides in celiac disease. Influence of amino acid substitutions in the membrane distal domain of DQ beta 1*0201
   Hum Immunol, 42 (2), 145-53
   DOI 10.1016/0198-8859(94)00086-6, PubMed 7744618
5. Przemioslo RT, Lundin KE, Sollid LM, Nelufer J, Ciclitira PJ (1995)
   Histological changes in small bowel mucosa induced by gliadin sensitive T lymphocytes can be blocked by anti-interferon gamma antibody
   Gut, 36 (6), 874-9
   DOI 10.1136/gut.36.6.874, PubMed 7615276
6. Viken HD, Paulsen G, Drover S, Marshall WH, Sollid LM, Gaudernack G, Thorsby E (1995)
   Influence on antibody recognition of amino acid substitutions in the cleft of HLA-DQ2 molecules. Suggestive evidence of peptide-dependent epitopes
   Hum Immunol, 44 (2), 63-9
   DOI 10.1016/0198-8859(95)00047-8, PubMed 8847230
7. Viken HD, Paulsen G, Sollid LM, Lundin KE, Tjønnfjord GE, Thorsby E, Gaudernack G (1995)
   Characterization of an HLA-DQ2-specific monoclonal antibody. Influence of amino acid substitutions in DQ beta 1*0202
   Hum Immunol, 42 (4), 319-27
   DOI 10.1016/0198-8859(94)00110-c, PubMed 7558917

Publications 1994

1. Gjertsen HA, Lundin KE, Sollid LM, Eriksen JA, Thorsby E (1994)
   T cells recognize a peptide derived from alpha-gliadin presented by the celiac disease-associated HLA-DQ (alpha 1*0501, beta 1*0201) heterodimer
   Hum Immunol, 39 (4), 243-52
   DOI 10.1016/0198-8859(94)90267-4, PubMed 7520895
2. Gjertsen HA, Sollid LM, Ek J, Thorsby E, Lundin KE (1994)
   T cells from the peripheral blood of coeliac disease patients recognize gluten antigens when presented by HLA-DR, -DQ, or -DP molecules
   Scand J Immunol, 39 (6), 567-74
   DOI 10.1111/j.1365-3083.1994.tb03414.x, PubMed 8009173
3. Johansen BH, Buus S, Vartdal F, Viken H, Eriksen JA, Thorsby E, Sollid LM (1994)
   Binding of peptides to HLA-DQ molecules: peptide binding properties of the disease-associated HLA-DQ(alpha 1*0501, beta 1*0201) molecule
   Int Immunol, 6 (3), 453-61
   DOI 10.1093/intimm/6.3.453, PubMed 8186196
4. Johansen BH, Gedde-Dahl T, Sollid LM, Vartdal F, Thorsby E, Gaudernack G (1994)
   Binding of ras oncogene peptides to purified HLA-DQ (alpha 1*0102, beta 1*0602) and -DR (alpha, beta 1*0101) molecules
   Scand J Immunol, 40 (4), 468
   DOI 10.1111/j.1365-3083.1994.tb03491.x, PubMed 7939420
5. Johansen BH, Gedde-Dahl T, Sollid LM, Vartdal F, Thorsby E, Gaudernack G (1994)
   Binding of ras oncogene peptides to purified HLA-DQ(alpha 1*0102,beta 1*0602) and -DR(alpha,beta 1*0101) molecules
   Scand J Immunol, 39 (6), 607-12
   DOI 10.1111/j.1365-3083.1994.tb03420.x, PubMed 8009176
6. Lundin KE, Gjertsen HA, Scott H, Sollid LM, Thorsby E (1994)
   Function of DQ2 and DQ8 as HLA susceptibility molecules in celiac disease
   Hum Immunol, 41 (1), 24-7
   DOI 10.1016/0198-8859(94)90079-5, PubMed 7836060
7. Lundin KE, Scott H, Fausa O, Thorsby E, Sollid LM (1994)
   T cells from the small intestinal mucosa of a DR4, DQ7/DR4, DQ8 celiac disease patient preferentially recognize gliadin when presented by DQ8
   Hum Immunol, 41 (4), 285-91
   DOI 10.1016/0198-8859(94)90047-7, PubMed 7883596