胰岛素、胰岛素样生长因子- 1和酚酯对培养大鼠血管平滑肌细胞中性胆固醇酯酶活性的影响。

R Fujiwara, A Shimada, T Tamai, T Nakai, S Miyabo
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引用次数: 0

摘要

我们研究了胰岛素、胰岛素样生长因子- i (IGF-I)和肉豆酸酯(PMA)对培养大鼠血管平滑肌细胞中性胆固醇酯酶活性的影响。胰岛素和igf - 1浓度在10(-9)mol/L和10(-6)mol/L之间显著降低生长受阻血管平滑肌细胞中性胆固醇酯酶活性,呈剂量依赖性,但对细胞内3′,5′-腺苷单磷酸(环AMP)浓度无影响。KT5720 (10(-7) mol/L至10(-5)mol/L)是环amp依赖性蛋白激酶的特异性抑制剂,用KT5720 (10(-7) mol/L至10(-5)mol/L)处理细胞后,中性胆固醇酯酶活性显著降低,且呈剂量依赖性。蛋白激酶C的激活剂PMA (10(-9) mol/L至10(-6)mol/L)将细胞孵育6至12小时,可显著增加中性胆固醇酯酶的活性,且呈剂量依赖性。然而,与PMA长期孵育(18至48小时)后,蛋白激酶C活性下调导致中性胆固醇酯酶活性显著降低。特异性蛋白激酶C抑制剂UCN-01 (10(-7) mol/L ~ 10(-5) mol/L)处理细胞后,酶活性呈剂量依赖性降低,完全阻断PMA对酶的激活。当胰岛素或igf - 1浓度为10(-6)mol/L时,在含有CL 277,082(一种酰基辅酶a:胆固醇酰基转移酶抑制剂)的培养基中,细胞胆固醇酯含量显著增加。相比之下,在CL 277,082存在的情况下,PMA浓度为10(-6)mol/L处理后,细胞的净胆固醇酯含量显著下降。这些数据表明胰岛素和igf - 1都可能通过减少动脉胆固醇酯水解来增加动脉平滑肌细胞中胆固醇酯的积累。这些数据还表明,中性胆固醇酯酶不仅可以被环amp依赖性蛋白激酶激活,还可以被蛋白激酶c激活。因此,生长因子可能通过调节血管平滑肌细胞中的中性胆固醇酯酶活性特异性地发挥其抗脂溶或脂溶作用。血管平滑肌细胞中性胆固醇酯酶可受血管平滑肌细胞再胆固醇酯酶可逆磷酸化调控,磷酸化形式为活性形式。
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Effects of insulin, insulin-like growth factor-I, and phorbol esters on neutral cholesteryl esterase activity in cultured rat vascular smooth muscle cells.

We investigated the effects of insulin, insulin-like growth factor-I (IGF-I), and phorbol 12-myristate 13-acetate (PMA) on neutral cholesteryl esterase activity in cultured rat vascular smooth muscle cells. Insulin and IGF-I at concentrations between 10(-9) mol/L and 10(-6) mol/L significantly decreased neutral cholesteryl esterase activity in growth-arrested vascular smooth muscle cells in a dose-dependent manner but with no influences on the intracellular concentration of 3',5'-adenosine monophosphate (cyclic AMP). Treatment of cells with KT5720 (10(-7) mol/L to 10(-5) mol/L), a specific inhibitor of cyclic AMP-dependent protein kinase, significantly decreased neutral cholesteryl esterase activity in a dose-dependent manner. Incubation of cells for 6 to 12 hours with PMA (10(-9) mol/L to 10(-6) mol/L), an activator of protein kinase C, significantly increased neutral cholesteryl esterase activity in a dose-dependent manner. However, down-regulation of protein kinase C activity by long-term incubation (18 to 48 hours) with PMA resulted in a significant decrease in neutral cholesteryl esterase activity. Treatment of cells with UCN-01 (10(-7) mol/L to 10(-5) mol/L), a specific protein kinase C inhibitor, decreased the enzyme activity in a dose-dependent manner and completely blocked the activation of the enzyme by PMA. When insulin or IGF-I at a concentration of 10(-6) mol/L was present in the medium containing CL 277,082--an inhibitor of acyl coenzyme A:cholesterol acyltransferase--cellular cholesteryl ester content of the cells significantly increased. In contrast, after the treatment with PMA at a concentration of 10(-6) mol/L in the presence of CL 277,082, the net cholesteryl ester content of the cells significantly declined. These data suggest that both insulin and IGF-I may increase cholesteryl ester accumulation in arterial smooth muscle cells by decreasing arterial cholesteryl ester hydrolysis. The data also suggest that neutral cholesteryl esterase is activated not only by cyclic AMP-dependent protein kinase but also by protein kinase C. Thus growth factors may exert their antilipolytic or lipolytic actions specifically by modulating neutral cholesteryl esterase activity in vascular smooth muscle cells. Neutral cholesteryl esterase of vascular smooth muscle cells may be regulated by recholesteryl esterase of vascular smooth muscle cells may be regulated by reversible phosphorylation, with the phosphorylated form being the active form.

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