Susceptibility to and severity of many autoimmune diseases, including type 1 diabetes (T1D), are known to be closely linked with particular class II MHC alleles, but the mechanism of these associations remains unknown. We have found that class II alleles that form unusually low-stability complexes with class II- associated invariant chain peptides (CLIP) are disproportionately represented among alleles that confer susceptibility to autoimmunity. Our recent work indicates that variations in class II/CLIP affinity affect the stability, longevity, and abundance of class II molecules in model antigen presenting cells (APC) and can modulate antigen presentation. Mechanisms by which variations in class II/CLIP affinity could influence susceptibility to autoimmunity thus include alterations in central selection events or peripheral tolerance or activation events, all of which are controlled by antigen presentation. ? ? Here, we propose to study whether varying class II/CLIP affinity can influence autoimmune disease pathogenesis in a whole animal. We will: 1) Establish a short-term mouse model of T1D in which the affinity of CLIP for class II has been modulated; this will be achieved by reconstituting irradiated, pre-disease NOD mice with HSC expressing invariant chains with wild type CLIP (with low affinity for MHC II) or mutated CLIP (with high affinity for MHC II); 2) Measure the effects of class II/CLIP affinity on class II stability, longevity, and abundance in primary APC types from these mice, including in the context of inflammatory stimuli; 3) Determine whether modulation of class II/CLIP affinity in BM-derived APC modulates disease and key immunologic features in this model. The results of these experiments will shape future studies, in which we will extend this work in a long-term model to investigate diabetes pathogenesis using mice that stably express high-affinity CLIP/Ii. If expression of high affinity CLIP in hematopoietic cells is sufficient for disease protection, it will provide new therapeutic options for individuals at risk for T1D. Although it has been known for a number of years that certain proteins, the HLA proteins, are a critical genetic risk factor for type 1 diabetes and other debilitating autoimmune diseases, the explanation for this genetic link has remained unknown. We will perform experiments in a mouse model of diabetes to test a novel hypothesis for the mechanism of this association. If successful, our experiments will shed new light on the mechanism(s) of disease initiation and pathogenesis in diabetes, and may suggest new treatment approaches for people who are at high risk for diabetes. ? ? ?

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Exploratory/Developmental Grants (R21)
Project #
1R21DK079163-01A1
Application #
7479078
Study Section
Hypersensitivity, Autoimmune, and Immune-mediated Diseases Study Section (HAI)
Program Officer
Spain, Lisa M
Project Start
2008-04-01
Project End
2010-03-31
Budget Start
2008-04-01
Budget End
2009-03-31
Support Year
1
Fiscal Year
2008
Total Cost
$197,500
Indirect Cost
Name
Stanford University
Department
Pediatrics
Type
Schools of Medicine
DUNS #
009214214
City
Stanford
State
CA
Country
United States
Zip Code
94305
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Wang, Nan; Rajasekaran, Narendiran; Hou, Tieying et al. (2014) Transgene expression in various organs post BM-HSC transplantation. Stem Cell Res 12:209-21
Rajasekaran, N; Wang, N; Hang, Y et al. (2013) B6.g7 mice reconstituted with BDC2·5 non-obese diabetic (BDC2·5NOD) stem cells do not develop autoimmune diabetes. Clin Exp Immunol 174:27-37
Wang, Nan; Rajasekaran, Narendiran; Hou, Tieying et al. (2013) Comparison of transduction efficiency among various lentiviruses containing GFP reporter in bone marrow hematopoietic stem cell transplantation. Exp Hematol 41:934-43
Hou, Tieying; Rinderknecht, Cornelia H; Hadjinicolaou, Andreas V et al. (2013) Pulse-chase analysis for studies of MHC class II biosynthesis, maturation, and peptide loading. Methods Mol Biol 960:411-432
Rajasekaran, Narendiran; Wang, Nan; Truong, Phi et al. (2013) Host-derived CD4+ T cells attenuate stem cell-mediated transfer of autoimmune arthritis in lethally irradiated C57BL/6.g7 mice. Arthritis Rheum 65:681-92
Busch, Robert; De Riva, Alessandra; Hadjinicolaou, Andreas V et al. (2012) On the perils of poor editing: regulation of peptide loading by HLA-DQ and H2-A molecules associated with celiac disease and type 1 diabetes. Expert Rev Mol Med 14:e15
Hou, Tieying; Macmillan, Henriette; Chen, Zhenjun et al. (2011) An insertion mutant in DQA1*0501 restores susceptibility to HLA-DM: implications for disease associations. J Immunol 187:2442-52
Rothbard, Jonathan B; Zhao, Xiaoyan; Sharpe, Orr et al. (2011) Chaperone activity of ? B-crystallin is responsible for its incorrect assignment as an autoantigen in multiple sclerosis. J Immunol 186:4263-8