Zhang Hua, Liu Jingnan, Li Caroline R, Momen Bahram, Kohanski Ronald A, Pick Leslie
Department of Entomology, University of Maryland, College Park, MD 20742, USA.
Proc Natl Acad Sci U S A. 2009 Nov 17;106(46):19617-22. doi: 10.1073/pnas.0905083106. Epub 2009 Nov 3.
Insulin/Insulin-like growth factor signaling regulates homeostasis and growth in mammals, and is implicated in diseases from diabetes to cancer. In Drosophila melanogaster, as in other invertebrates, multiple Insulin-Like Peptides (DILPs) are encoded by a family of related genes. To assess DILPs' physiological roles, we generated small deficiencies that uncover single or multiple dilps, generating genetic loss-of-function mutations. Deletion of dilps1-5 generated homozygotes that are small, severely growth-delayed, and poorly viable and fertile. These animals display reduced metabolic activity, decreased triglyceride levels and prematurely activate autophagy, indicative of "starvation in the midst of plenty," a hallmark of Type I diabetes. Furthermore, circulating sugar levels are elevated in Df [dilp1-5] homozygotes during eating and fasting. In contrast, Df[dilp6] or Df[dilp7] animals showed no major metabolic defects. We discuss physiological differences between mammals and insects that may explain the unexpected survival of lean, 'diabetic' flies.
胰岛素/胰岛素样生长因子信号传导调节哺乳动物的体内平衡和生长,并与从糖尿病到癌症等多种疾病有关。与其他无脊椎动物一样,在黑腹果蝇中,多个胰岛素样肽(DILPs)由一组相关基因编码。为了评估DILPs的生理作用,我们产生了揭示单个或多个dilps的小缺失,产生了基因功能丧失突变。删除dilps1-5产生了体型小、严重生长延迟、生存能力和繁殖力差的纯合子。这些动物表现出代谢活性降低、甘油三酯水平下降,并过早激活自噬,这表明“在富足中饥饿”,这是I型糖尿病的一个标志。此外,在进食和禁食期间,Df [dilp1-5]纯合子的循环血糖水平升高。相比之下,Df[dilp6]或Df[dilp7]动物没有表现出主要的代谢缺陷。我们讨论了哺乳动物和昆虫之间的生理差异,这些差异可能解释了瘦的“糖尿病”果蝇意外存活的原因。