Insulin receptor substrate (IRS)-2؊/؊ mice develop diabetes because of insulin resistance in the liver and failure to undergo -cell hyperplasia. Here we show by DNA chip microarray analysis that expression of the sterol regulatory element-binding protein (SREBP)-1 gene, a downstream target of insulin, was paradoxically increased in 16-week-old IRS-2 ؊/؊ mouse liver, where insulin-mediated intracellular signaling events were substantially attenuated. The expression of SREBP-1 downstream genes, such as the spot 14, ATP citratelyase, and fatty acid synthase genes, was also increased. Increased liver triglyceride content in IRS-2 ؊/؊ mice assures the physiological importance of SREBP-1 gene induction. IRS-2 ؊/؊ mice showed leptin resistance; low dose leptin administration, enough to reduce food intake and body weight in wild-type mice, failed to do so in IRS-2 ؊/؊ mice. Interestingly, high dose leptin administration reduced SREBP-1 expression in IRS-2 ؊/؊ mouse liver. Thus, IRS-2 gene disruption results in leptin resistance, causing an SREBP-1 gene induction, obesity, fatty liver, and diabetes.The pathogenesis of type 2 diabetes involves complex interactions among multiple physiological defects. Transgenic and knockout technology to create animal models of type 2 diabetes have had a major impact on assessment of the function of newly identified molecules implicated in the regulation of glucose homeostasis in vivo (1). The insulin receptor substrate (IRS) 1 proteins play a key role in signal transduction from the insulin receptor (reviewed in Refs. 2-4). These molecules are major intracellular phosphorylation targets of activated insulin receptor tyrosine kinase. The mammalian IRS protein family contains at least four members, ubiquitous IRS-1 (5) and IRS-2 (6), adipose tissue-predominant IRS-3 (7), and IRS-4, which are expressed in thymus, brain, and kidney (8). The physiological roles of each protein have been evaluated by gene targeting strategies. IRS-1 Ϫ/Ϫ mice are growth-retarded and insulin-resistant (9, 10) but do not develop diabetes, because an alternate substrate IRS-2 (10) or pp190 (11) compensates for the lack of IRS-1 in liver (11) and, at least in part, in skeletal muscle (12). In addition, hyperinsulinemia associated with -cell hyperplasia effectively countervailed the insulin-resistant states (13). IRS-2 Ϫ/Ϫ mice, however, developed diabetes because of inadequate -cell proliferation combined with liver-insulin resistance (14 -16). Mice lacking IRS-3 or IRS-4 had milder phenotypes (17, 18).Liver is a major target organ for insulin action, contributing to energy storage in the fed state by regulating catabolic and anabolic pathways. Liver-specific insulin receptor knockout mice exhibit dramatic insulin resistance (19). Insulin decreases gluconeogenic enzyme mRNAs (20) and increases lipogenic enzyme mRNAs. A transcription factor of sterol regulatory element-binding protein 1c (SREBP-1c) (21-23) or adipocyte differentiation and determination factor (24) plays a central role in insulin-mediated lipogen...
