肝脏3-羟基-3-甲基戊二酰辅酶A还原酶的反馈和激素调节:胆固醇缓冲能力的概念。

G. Ness, C. Chambers
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引用次数: 132

摘要

肝脏3-羟基-3-甲基戊二酰辅酶A (HMG-CoA)还原酶的表达受生物合成途径的主要终产物胆固醇和各种激素的调控,对于在面对不断变化的外部环境时维持稳定的血清和组织胆固醇水平至关重要。下调这种酶的能力提供了一种手段来缓冲身体对抗膳食胆固醇的血清胆固醇升高作用。肝脏HMG-CoA还原酶基础表达越高,“胆固醇缓冲能力”越大,对膳食胆固醇的抵抗能力越强。本文综述了HMG-CoA还原酶在完整动物而非培养细胞中的反馈和激素调节机制,并提供了导致肝脏HMG-CoA还原酶调节作为胆固醇缓冲剂的证据。最近的动物研究表明,肝脏HMG-CoA还原酶的反馈调节除了发生在转录水平外,还发生在翻译水平。膳食胆固醇降低了HMG-CoA还原酶mRNA的翻译效率。氧化木甾醇似乎参与了这种翻译调控。膳食胆固醇的反馈调节似乎不涉及肝脏HMG-CoA还原酶的磷酸化状态或该酶的降解速率的变化。几种激素可改变动物肝脏HMG-CoA还原酶的表达。这些药物包括胰岛素、胰高血糖素、糖皮质激素、甲状腺激素和雌激素。胰岛素刺激HMG-CoA还原酶活性可能是通过增加转录速率,而胰高血糖素则是通过反对这种作用。肝脏HMG-CoA还原酶活性的昼夜变化主要是由于胰岛素和胰高血糖素水平的变化介导的免疫反应蛋白水平的变化。甲状腺激素通过增加mRNA的转录和稳定性来增加肝脏HMG-CoA还原酶水平。糖皮质激素通过破坏还原酶mRNA的稳定性来降低肝脏HMG-CoA还原酶的表达。雌激素增加肝脏HMG-CoA还原酶活性的主要途径是稳定mRNA的表达。那些增加肝脏HMG-CoA还原酶基因表达的激素缺乏导致血清胆固醇水平升高。肝脏HMG-CoA还原酶的高基础表达,无论是由于遗传因素还是激素因素,似乎导致更大的胆固醇缓冲能力,从而增加对膳食胆固醇的抵抗力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Feedback and hormonal regulation of hepatic 3-hydroxy-3-methylglutaryl coenzyme A reductase: the concept of cholesterol buffering capacity.
Regulation of the expression of hepatic 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase by the major end product of the biosynthetic pathway, cholesterol, and by various hormones is critical to maintaining constant serum and tissue cholesterol levels in the face of an ever-changing external environment. The ability to downregulate this enzyme provides a means to buffer the body against the serum cholesterol-raising action of dietary cholesterol. The higher the basal expression of hepatic HMG-CoA reductase, the greater the "cholesterol buffering capacity" and the greater the resistance to dietary cholesterol. This review focuses on the mechanisms of feedback and hormonal regulation of HMG-CoA reductase in intact animals rather than in cultured cells and presents the evidence that leads to the proposal that regulation of hepatic HMG-CoA reductase acts as a cholesterol buffer. Recent studies with animals have shown that feedback regulation of hepatic HMG-CoA reductase occurs at the level of translation in addition to transcription. The translational efficiency of HMG-CoA reductase mRNA is diminished through the action of dietary cholesterol. Oxylanosterols appear to be involved in this translational regulation. Feedback regulation by dietary cholesterol does not appear to involve changes in the state of phosphorylation of hepatic HMG-CoA reductase or in the rate of degradation of this enzyme. Several hormones act to alter the expression of hepatic HMG-CoA reductase in animals. These include insulin, glucagon, glucocorticoids, thyroid hormone and estrogen. Insulin stimulates HMG-CoA reductase activity likely by increasing the rate of transcription, whereas glucagon acts by opposing this effect. Hepatic HMG-CoA reductase activity undergoes a significant diurnal variation due to changes in the level of immunoreactive protein primarily mediated by changes in insulin and glucagon levels. Thyroid hormone increases hepatic HMG-CoA reductase levels by acting to increase both transcription and stability of the mRNA. Glucocorticoids act to decrease hepatic HMG-CoA reductase expression by destabilizing reductase mRNA. Estrogen acts to increase hepatic HMG-CoA reductase activity primarily by stabilizing the mRNA. Deficiencies in those hormones that act to increase hepatic HMG-CoA reductase gene expression lead to elevations in serum cholesterol levels. High basal expression of hepatic HMG-CoA reductase, whether due to genetic or hormonal factors, appears to result in greater cholesterol buffering capacity and thus increased resistance to dietary cholesterol.
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