Kayo T, Koizumi A
Department of Hygiene, Akita University School of Medicine, Akita 010, Japan.
J Clin Invest. 1998 May 15;101(10):2112-8. doi: 10.1172/JCI1842.
Mutation of the murine maturity-onset diabetes mellitus of the young (Mody) locus induces diabetes, but the effects of its homozygosity on the pancreas remain unknown. F2 mice were obtained by F1 (diabetic C57BL6 x normal Mus musculus castaneus) crosses. About 20% of the F2 progeny developed diabetes by 2 wk of age, 50% of the progeny were normal at 2 wk and developed diabetes between 5 and 8 wk of age, and the remaining 30% did not develop diabetes. Quantitative trait locus analysis using blood glucose levels of 118 F2 mice at 2 wk of age and 5-8 wk of age located Mody within 3 cM of D7Mit258. Histopathological investigation revealed hypoplastic islets (approximately 33% of that of wild-type mice) and a lower density of beta cells (approximately 20% of wild-type) with a reciprocal dominance of alpha cells (four times that of wild-type) in Mody homozygotes. Electron microscopic observations revealed a specific decrease in the number of insulin secretory granules and a lower density of beta cells. Ratios of insulin to glucagon contents confirmed specific decreases in insulin content: 0.01 for homozygotes, 0.54 for heterozygotes, and 1.11 for wild-type mice on day 14. These results suggest that Mody is involved in both islet growth and beta cell function.
小鼠青少年发病型成年糖尿病(Mody)位点的突变会诱发糖尿病,但其纯合性对胰腺的影响尚不清楚。通过F1(糖尿病C57BL6×正常小家鼠栗色种)杂交获得F2小鼠。约20%的F2后代在2周龄时患糖尿病,50%的后代在2周龄时正常,在5至8周龄时患糖尿病,其余30%未患糖尿病。利用118只F2小鼠在2周龄和5至8周龄时的血糖水平进行数量性状基因座分析,将Mody定位在D7Mit258的3厘摩范围内。组织病理学研究显示,Mody纯合子的胰岛发育不全(约为野生型小鼠的33%),β细胞密度较低(约为野生型的20%),α细胞呈相反优势(是野生型的四倍)。电子显微镜观察显示胰岛素分泌颗粒数量明显减少,β细胞密度降低。胰岛素与胰高血糖素含量的比率证实胰岛素含量明显降低:第14天时,纯合子为0.01,杂合子为0.54,野生型小鼠为1.11。这些结果表明,Mody与胰岛生长和β细胞功能均有关。