The pathogenesis and development of human diabetic nephropathy involves genetic factors. Since human diabetic nephropathy is a heterogeneous disorder, identification of responsible gene loci is difficult. We studied candidate gene loci for diabetic nephropathy, using quantitative trait locus (QTL) analysis of a spontaneous animal model for diabetic nephropathy: KK-Ay/Ta × normal BALB/cA F2 intercross mice.

We examined 270 (KK-Ay/Ta × BALB/cA) F2 intercross mice for their urinary albumin to creatinine ratios (ACRs), HbA1c and fasting body weights (FBW) at 8, 12, 16 and 20 weeks. Genotypes were investigated using 86 microsatellite markers with QTL analysis.

ACR in mice at 20 weeks and ACR gain showed a suggestive linkage to chromosome 9 (log of the odds [LOD] scores: 3.8 and 3.4, respectively; designated ACR-1). Gene loci contributing to HbA1c indicated a significant linkage to chromosome 7 (LOD: 5.8 and 8.9) in mice at 8 and 20 weeks (designated HbA1c-1), and FBW indicated a significant linkage to chromosome 1 (LOD: 5.5 and 5.2) in mice at 8 and 12 weeks (designated Fbw-1). At 20 weeks, glomerular to Bowman's capsule volume (G/B) ratio of F2 mice homozygous BB for D9Mit66 was significantly higher than that in homozygous KK and heterozygous KB F2 progeny. The sizes of pancreatic islets in F2 progeny homozygous KK and heterozygous KB for D7Mit100 were larger than those in homozygous BB F2 progeny.

QTL analysis of KK-Ay/Ta mice revealed several new loci contributing to diabetic nephropathy and related phenotypes. Thus, it appears that type 2 diabetes and nephropathy of KK-Ay/Ta mice have different genetic factors.