Shared TCRs in peripheral blood offer robust celiac disease classification independent of gluten Intake
Elyanow, R.; Choung, R. S.; Marietta, E. V.; Bharanikumar, R.; Zhou, W.; Chen-Harris, H.; Bryan Howie, B.; Robins, H. S.; Neuhausen, S. L.; Murray, J. A.
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Background and AimsCeliac disease (CeD) is a chronic digestive autoimmune disorder affecting approximately 1% of the worldwide population. It is driven by T cells activated by specific HLA-DQ2 or HLA-DQ8 molecules leading to the destruction of intestinal villi. We aimed to characterize shared CeD-specific T cells in patients on and off a gluten-free diet (GFD) from a large cohort of cases and controls. MethodsWe performed bulk TCR{beta} immune sequencing of the peripheral blood of 1,604 biopsy-confirmed CeD patients (1,339 on GFD, 265 on normal diet) and 1,100 controls. We identified over 300 TCR{beta}s enriched in CeD cases versus controls in an HLA-aware manner, controlling for CeD risk alleles. ResultsCeD-associated TCR{beta}s were found to be more predictive of disease than previously characterized gliadin and glutenin-binding TCRs in a validation cohort. Furthermore, the clonal breadth of these TCR{beta}s was associated with increased intestinal damage. Immune sequencing of the peripheral blood also uncovered repertoire-level differences between CeD patients and controls. CeD patients displayed significantly higher productive clonality compared to age-matched controls as well as expansion of TCR{beta}s specific to cytomegalovirus (CMV) and Epstein-Barr Virus (EBV). ConclusionsThese findings underscore the value of unbiased immune repertoire sequencing to identify novel biomarkers for autoimmune disease and to discover new disease mechanisms which can improve both diagnosis and treatment of disease.
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