A framework designed for discovery
Overview
This project combines intestinal tissue analysis, T cell biology, and molecular profiling to characterize IFNγ-induced enterocyte responses as a diagnostic marker of celiac disease activity and a mechanistic driver of CTL-mediated intestinal damage. The work moves from mechanistic discovery through biomarker validation and clinical trial application.
Experimental / Computational Methods
Modern tissue analysis techniques applied to small intestinal biopsies from CeD patients; characterization of IFNγ-induced enterocyte responses including CCL3, CCL4, CXCL10, CXCL11, and HLA-E expression; gluten peptide stimulation assays to trigger IFNγ responses; and CTL killing assays to evaluate HLA-E- and HLA-B-mediated enterocyte elimination by recruited T cells.
Data Sources / Models Used
Small intestinal biopsy datasets from CeD patients, IFNγ response profiling data from villous enterocytes, CTL recruitment and killing assay datasets, and human immune system mouse models of celiac disease for comparative validation with human biopsy findings.
Analytical / Translational Focus
Validation of the IFNγ enterocyte response signature as a molecular microscope for CeD activity assessment, with translational applications including pre- and post-treatment biopsy analysis in clinical trials, collaboration with other consortium investigators, and expansion to checkpoint inhibitor enteritis, colitis, ulcerative colitis, and Crohn’s disease. A P01 grant application to NIAID is planned for June 2025.
Powering the science
Jordan Pober, MD, PhD, Colton Consortium Member
Bayer Professor of Translational Medicine, Deparment of Immunobiology, Yale School of Medicine, Yale University
Marie Robert, MD, Colton Consortium Member
Professor, Department of Pathology, Yale School of Medicine, Yale University
From insight to impact
Publications
Opportunities for improving biopsy and non-biopsy-based diagnosis of celiac disease
T cell receptors for antigen on intraepithelial cytolytic T lymphocytes in celiac disease engage enterocyte HLA-E and HLA-B
The multiple roles of gamma interferon in intraepithelial T cell-villous enterocyte interactions in active celiac disease
Additional Outputs
Extramural Funding
Astra Zeneca grant: $1,277,930 (Biomarkers and Pathogenesis of Immune-mediated Enteridities and Colitides: Celiac Disease vs. Check Point Inhibitor Enteritis and Colitis vs. Idiopathic Inflammatory Bowel Disease, 2024–2027). MPIs: Jordan Pober, Marie Robert, and Andrew Martins.