H‐2‐linked control of the Yaa gene‐induced acceleration of lupus‐like autoimmune disease in BXSB mice

Abstract

The accelerated development of lupus-like autoimmune disease in male BXSB mice (H-2^b, I-E⁻) is associated to the presence of a mutant gene, designated Yaa, located on their Ychromosome. To investigate whether the H-2^b haplotype and/or the lack of expression of I-E molecules play any role in the Yaa-linked acceleration of autoimmune disease, an I-E⁺ BXSB.H-2^d congenic strain was created by backcross procedures. We compared the development of autoimmune disease in the novel BXSB.H-2^d (I-E⁺) strain to that of BXSB.H-2^b (I-E⁻) and BXSB.H-2^b/d (I-E⁺) heterozygous mice. Male BXSB.H-2^d (I-E⁺) mice exhibited only a limited production of autoantibodies and a lower incidence of glomerulonephritis with a markedly prolonged survival rate, which were essentially identical to those of female BXSB mice of both-H-2^b and H-2^d haplotypes. However. BXSB.H-2^b/d (I-E⁺) heterozygous males developed an accelerated disease comparable to that of conventional BXSB.H-2^b (I-E⁻) male mice. These results indicate that the expression of I-E molecules and consequent clonal deletion or anergy of I-E reactive T cells does not appear to be responsible for the prevention of accelerated autoimmune disease in BXSB.H-2^d (I-E⁺) male mice. The finding that the Yaa gene-induced acceleration of lupus-like autoimmune disease is modulated by gene(s) within or closely linked to the H-2 complex underlines the crucial role of the major histocompatibility complex and the polygenetic nature of autoimmune disease in BXSB mice.