Mt-Nd2a modifies resistance against autoimmune type 1 diabetes in NOD mice at the level of the pancreatic β-Cell

Abstract

OBJECTIVE-To investigate whether a single nucleotide polymorphism (SNP) in the mitochondrial gene for NADH dehydrogenase 2 (mt-Nd2) can modulate susceptibility to type 1 diabetes in NOD mice. RESEARCH DESIGN AND METHODS-NOD/ShiLtJ mice conplastic for the alloxan resistant (ALR)/Lt-derived mt-Nd2a allele (NOD.mtALR) were created and compared with standard NOD (carrying the mt-Nd2c allele) for susceptibility to spontaneous autoimmune diabetes, or to diabetes elicited by reciprocal adoptive splenic leukocyte transfers, as well as by adoptive transfer of diabetogenic T-cell clones. β-Cell lines derived from either the NOD (NIT-1) or the NOD.mtALR (NIT-4) were also created to compare their susceptibility to cytolysis by diabetogenic CD8+ T-cells in vitro. RESULTS-NOD mice differing at this single SNP developed spontaneous or adoptively transferred diabetes at comparable rates and percentages. However, conplastic mice with the mt- Nd2 a allele exhibited resistance to transfer of diabetes by the CD4 + T-cell clone BDC 2.5 as well as the CD8+ AI4 T-cell clones from T-cell receptor transgenic animals. NIT-4 cells with mt- Nd2 a were also more resistant to AI4-mediated destruction in vitro than NIT-1 cells. CONCLUSIONS-Conplastic introduction into NOD mice of a variant mt-Nd2 allele alone was not sufficient to prevent spontaneous autoimmune diabetes. Subtle nonhematopoietic type 1 diabetes resistance was observed during adoptive transfer experiments with T-cell clones. This study confirms that genetic polymorphisms in mitochondria can modulate β-cell sensitivity to autoimmune T-cell effectors. © 2011 by the American Diabetes Association.