Nuttall F Q, Gannon M C, Bergstrom W J
Am J Physiol. 1975 Jun;228(6):1815-20. doi: 10.1152/ajplegacy.1975.228.6.1815.
The effect of intravenous epinephrine on heart glycogen synthase and phosphorylase systems in control and insulin-pretreated rats was studied. The percent of synthase in the I form decreased rapidly after epinephrine treatment but the change was small and sometimes not significant. In insulin-pretreated rats in which the percent synthase I was increased, epinephrine produced a definate and highly significant decrease. There was a simultaneous increase in percent phosphorylase a in both groups. The synthase and phosphorylase responses were statiscally significant at 2.5 mug epinephrine/kgor more. These data are compatible with a mechanism in which protein kinase is activated by an increased cAMP concentration and affects both the synthase and phosphorylasesystems simultaneously. Propranolol blocked the epinephrine effects on cAMP, synthase I, and phosphorylase a. Although insulin had little effect on the response ofthe synthase and phosphorylase systems to epinephrine, it nealry completely blocked glycogen degradation. The mechanism is unknown, but it appears to be due to an inhibition of phosphorylase a catalytic activity in vivo. Acetylcholine had no effect on synthase I, phosphorylase a, or cAMP in control or in insulin-pretreated animals.
研究了静脉注射肾上腺素对正常大鼠和胰岛素预处理大鼠心脏糖原合酶及磷酸化酶系统的影响。肾上腺素处理后,I型合酶的百分比迅速下降,但变化较小,有时不显著。在胰岛素预处理且I型合酶百分比增加的大鼠中,肾上腺素导致了明确且高度显著的下降。两组中磷酸化酶a的百分比同时增加。当肾上腺素剂量达到2.5微克/千克或更高时,合酶和磷酸化酶的反应具有统计学意义。这些数据符合一种机制,即蛋白激酶被升高的环磷酸腺苷(cAMP)浓度激活,并同时影响合酶和磷酸化酶系统。普萘洛尔阻断了肾上腺素对cAMP、I型合酶和磷酸化酶a的作用。虽然胰岛素对合酶和磷酸化酶系统对肾上腺素的反应影响不大,但它几乎完全阻断了糖原降解。其机制尚不清楚,但似乎是由于在体内抑制了磷酸化酶a的催化活性。乙酰胆碱对正常动物或胰岛素预处理动物的I型合酶、磷酸化酶a或cAMP均无影响。