Pearce Nigel J, Arch Jonathan R S, Clapham John C, Coghlan Matthew P, Corcoran Stacey L, Lister Carolyn A, Llano Andrea, Moore Gary B, Murphy Gregory J, Smith Stephen A, Taylor Colleen M, Yates John W, Morrison Alastair D, Harper Alexander J, Roxbee-Cox Lynne, Abuin Alejandro, Wargent Ed, Holder Julie C
Department of Vascular Biology, GlaxoSmithKline, Harlow, UK.
Metabolism. 2004 Oct;53(10):1322-30. doi: 10.1016/j.metabol.2004.05.008.
Glycogen synthase kinase-3 (GSK-3) protein levels and activity are elevated in skeletal muscle in type 2 diabetes, and inversely correlated with both glycogen synthase activity and insulin-stimulated glucose disposal. To explore this relationship, we have produced transgenic mice that overexpress human GSK-3beta in skeletal muscle. GSK-3beta transgenic mice were heavier, by up to 20% (P < .001), than their age-matched controls due to an increase in fat mass. The male GSK-3beta transgenic mice had significantly raised plasma insulin levels and by 24 weeks of age became glucose-intolerant as determined by a 50% increase in the area under their oral glucose tolerance curve (P < .001). They were also hyperlipidemic with significantly raised serum cholesterol (+90%), nonesterified fatty acids (NEFAs) (+55%), and triglycerides (+170%). At 29 weeks of age, GSK-3beta protein levels were 5-fold higher, and glycogen synthase activation (-27%), glycogen levels (-58%) and insulin receptor substrate-1 (IRS-1) protein levels (-67%) were significantly reduced in skeletal muscle. Hepatic glycogen levels were significantly increased 4-fold. Female GSK-3beta transgenic mice did not develop glucose intolerance despite 7-fold overexpression of GSK-3beta protein and a 20% reduction in glycogen synthase activation in skeletal muscle. However, plasma NEFAs and muscle IRS-1 protein levels were unchanged in females. We conclude that overexpression of human GSK-3beta in skeletal muscle of male mice resulted in impaired glucose tolerance despite raised insulin levels, consistent with the possibility that elevated levels of GSK-3 in type 2 diabetes are partly responsible for insulin resistance.
糖原合酶激酶-3(GSK-3)的蛋白水平及活性在2型糖尿病患者的骨骼肌中升高,且与糖原合酶活性及胰岛素刺激的葡萄糖处置呈负相关。为探究这种关系,我们构建了在骨骼肌中过表达人GSK-3β的转基因小鼠。GSK-3β转基因小鼠比同年龄对照重20%(P <.001),原因是脂肪量增加。雄性GSK-3β转基因小鼠的血浆胰岛素水平显著升高,到24周龄时出现葡萄糖不耐受,口服葡萄糖耐量曲线下面积增加50%(P <.001)。它们还出现高脂血症,血清胆固醇(+90%)、非酯化脂肪酸(NEFAs,+55%)和甘油三酯(+170%)显著升高。29周龄时,骨骼肌中GSK-3β蛋白水平升高5倍,糖原合酶活性(-27%)、糖原水平(-58%)和胰岛素受体底物-1(IRS-1)蛋白水平(-67%)显著降低。肝糖原水平显著增加4倍。雌性GSK-3β转基因小鼠尽管GSK-3β蛋白过表达7倍且骨骼肌中糖原合酶活性降低20%,但未出现葡萄糖不耐受。然而,雌性小鼠的血浆NEFAs和肌肉IRS-1蛋白水平未发生变化。我们得出结论,雄性小鼠骨骼肌中过表达人GSK-3β导致尽管胰岛素水平升高但葡萄糖耐量受损,这与2型糖尿病中GSK-3水平升高可能部分导致胰岛素抵抗的可能性一致。
