We have identified three chromosomal segments, apart from the MHC complex, which contain genes that independently regulate progression of the pancreatic autoimmunity and beta-cell loss in non-obese diabetic (NOD) mice. Two of these genes, found on chromosomes 4 and 11, co-localize with chromosomal segments associated with one or more aspects of lupus-like disease in the NZB/NZW F1 model. This observation led to our first hypothesis: that genes located on chromosomes 4 and 11, which control- diabetes-susceptibility in NOD mice, promote the development of lupus-like disease in mice. We propose to define the location of lupus-susceptibility genes on chromosomes 4 and 11 in a recombinant-inbred mouse model of SLE, NZM2328. This will be accomplished by inhibiting disease expression with defined intervals of chromosome 4 and 11 taken from the non-autoimmune C57L/J strain and correspond to the locations of the chromosome 4 and 11 genes in autoimmune diabetes (Specific Aim 1). Using targeted breeding, we will then determine directly whether homologous NOD interval can reestablish disease expression after replacing C57L/J segments in this model (Specific Aim 2). Taken together, the results of the proposed experiments in Aims 1 and 2 will test the hypothesis that the lupus- susceptibility genes identified on chromosomes 4 and 1 represent """"""""autoimmunity genes"""""""" common to at least two distinct models of spontaneous autoimmunity in mice. In addition to protection from insulitis, we show that introduction of C57L/J derived alleles into a defined segment of chromosome 11 supports normalization of defective immune responses and protection from invasive insulitis in NOD mice. These observations suggest the second hypothesis: that this region of chromosome 11 plays a fundamental role in the regulation of specific immune reactivity, with particular relevance to autoimmunity. In order to test this hypothesis, we will determine the mechanism of action of the chromosome 11 gene(s) in an induced model of autoimmunity resulting from immunization with Ro60 antigen (Specific Aim 3). These studies will allow us to define the genetic relationship between pathogenic immune responses and the regulation of inflammatory responses by genes on chromosome 11. The results of these experiment will provide insight in disease pathogenesis in lupus-like autoimmunity in mice, particularly in dependence regulation of immune responses and inflammation. In addition, they will determine whether common """"""""autoimmunity genes"""""""" control the development of disease in two autoimmune disease with different manifestations. We postulate that genes of this type are very likely to have homologues in human autoimmune disease.

Project Start
1999-07-01
Project End
2000-06-30
Budget Start
1998-10-01
Budget End
1999-09-30
Support Year
2
Fiscal Year
1999
Total Cost
Indirect Cost
Name
University of Virginia
Department
Type
DUNS #
001910777
City
Charlottesville
State
VA
Country
United States
Zip Code
22904
Sung, Sun-Sang J; Ge, Yan; Dai, Chao et al. (2017) Dependence of Glomerulonephritis Induction on Novel Intraglomerular Alternatively Activated Bone Marrow-Derived Macrophages and Mac-1 and PD-L1 in Lupus-Prone NZM2328 Mice. J Immunol 198:2589-2601
Dai, Chao; Deng, Yun; Quinlan, Aaron et al. (2014) Genetics of systemic lupus erythematosus: immune responses and end organ resistance to damage. Curr Opin Immunol 31:87-96
Ge, Yan; Jiang, Chao; Sung, Sun-Sang J et al. (2013) Cgnz1 allele confers kidney resistance to damage preventing progression of immune complex-mediated acute lupus glomerulonephritis. J Exp Med 210:2387-401
Lewis, Janet E; Fu, Shu Man; Gaskin, Felicia (2013) Autoimmunity, end organ damage, and the origin of autoantibodies and autoreactive T cells in systemic lupus erythematosus. Discov Med 15:85-92
Ge, Yan; Brown, Michael G; Wang, Hongyang et al. (2012) Genetic approach to study lupus glomerulonephritis. Methods Mol Biol 900:271-90
Fu, Shu Man; Deshmukh, Umesh S; Gaskin, Felicia (2011) Pathogenesis of systemic lupus erythematosus revisited 2011: end organ resistance to damage, autoantibody initiation and diversification, and HLA-DR. J Autoimmun 37:104-12
Deshmukh, Umesh S; Sim, Davis L; Dai, Chao et al. (2011) HLA-DR3 restricted T cell epitope mimicry in induction of autoimmune response to lupus-associated antigen SmD. J Autoimmun 37:254-62
Jiang, Chao; Deshmukh, Umesh S; Gaskin, Felicia et al. (2010) Differential responses to Smith D autoantigen by mice with HLA-DR and HLA-DQ transgenes: dominant responses by HLA-DR3 transgenic mice with diversification of autoantibodies to small nuclear ribonucleoprotein, double-stranded DNA, and nuclear antigens. J Immunol 184:1085-91
Sharma, Rahul; Sung, Sun-sang Joe; Fu, Shu Man et al. (2009) Regulation of multi-organ inflammation in the regulatory T cell-deficient scurfy mice. J Biomed Sci 16:20
Bagavant, Harini; Fu, Shu Man (2009) Pathogenesis of kidney disease in systemic lupus erythematosus. Curr Opin Rheumatol 21:489-94

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