Chang P Y, Benecke H, Le Marchand-Brustel Y, Lawitts J, Moller D E
Charles A. Dana Research Institute, Boston, Massachusetts.
J Biol Chem. 1994 Jun 10;269(23):16034-40.
To examine the in vivo effects of a kinase-deficient mutant human insulin receptor, we used the muscle creatine kinase promoter to express a putative dominant-negative receptor: Ala1134-->Thr (Moller, D. E., Yokota, A., White, M. F., Pazianos, A. G., and Flier, J. S. (1990) J. Biol. Chem. 265, 14979-14985) in transgenic mice. Two lines were generated, where receptor expression was restricted to striated muscle and was increased by 5-12-fold in skeletal muscle. Transgenic gluteal muscle insulin receptor kinase activity was reduced by approximately 80% after maximal in vitro insulin stimulation. Glycogen content in this muscle was reduced by 45% in transgenic mice. Insulin levels were approximately 2-fold higher, and glucose concentrations were 12% higher in transgenics fed ad libitum. Transgenic mice exhibited reduced in vivo sensitivity to low dose (0.1 milliunits/g) intravenous insulin. In isolated soleus muscles from transgenics, where mutant receptors were expressed at lower levels, insulin-stimulated receptor kinase activity was reduced by 42%, but insulin-stimulated 2-deoxyglucose uptake was unaffected. These results indicate that (i) overexpression of a kinase-deficient human insulin receptor in muscle causes dominant-negative effects at the level of receptor kinase activation, (ii) impairment of insulin-stimulated muscle receptor tyrosine kinase activity can cause decreased insulin sensitivity in vivo, (iii) kinase-defective receptor mutants may be used to create novel animal models of tissue-specific insulin resistance.
为了研究激酶缺陷型突变体人胰岛素受体的体内效应,我们利用肌肉肌酸激酶启动子在转基因小鼠中表达一种假定的显性负性受体:Ala1134→Thr(莫勒,D.E.,横田,A.,怀特,M.F.,帕齐亚诺斯,A.G.,和弗利尔,J.S.(1990年)《生物化学杂志》265,14979 - 14985)。产生了两个品系,其中受体表达仅限于横纹肌,并且在骨骼肌中增加了5至12倍。在最大程度的体外胰岛素刺激后,转基因臀肌胰岛素受体激酶活性降低了约80%。转基因小鼠中该肌肉的糖原含量降低了45%。随意进食的转基因小鼠的胰岛素水平大约高2倍,葡萄糖浓度高12%。转基因小鼠对低剂量(0.1毫单位/克)静脉注射胰岛素的体内敏感性降低。在来自转基因小鼠的分离比目鱼肌中,突变受体表达水平较低,胰岛素刺激的受体激酶活性降低了42%,但胰岛素刺激的2 - 脱氧葡萄糖摄取未受影响。这些结果表明:(i)肌肉中激酶缺陷型人胰岛素受体的过表达在受体激酶激活水平产生显性负性效应;(ii)胰岛素刺激的肌肉受体酪氨酸激酶活性受损可导致体内胰岛素敏感性降低;(iii)激酶缺陷型受体突变体可用于创建组织特异性胰岛素抵抗的新型动物模型。
