羟甾醇:朋友,敌人,还是同路人?

I. Björkhem, U. Diczfalusy
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引用次数: 288

摘要

氧甾醇是胆固醇的氧合衍生物,是胆固醇排泄途径的中间体甚至最终产物。由于它们能够以比胆固醇本身更快的速度通过细胞膜和血脑屏障,它们作为胆固醇的运输形式也很重要。此外,氧甾醇在胆固醇转换、动脉粥样硬化、细胞凋亡、坏死、炎症、免疫抑制和胆结石的发生等方面也起着重要作用。根据目前的概念,氧化甾醇是与许多胆固醇诱导的代谢作用有关的生理介质。然而,这方面的大多数证据仍然是间接的,并且在体外条件下记录的强效氧化甾醇与表明它们在体内具有生理重要性的研究之间存在差异。氧甾醇结合蛋白,如肝脏X受体-&agr;(一种核受体),确实在胆固醇转换中起调节作用,但该蛋白质的生理配体尚未确定。最近开发的基因工程小鼠模型中,某些氧甾醇的浓度显著降低或增加,在胆固醇周转和体内平衡方面表现出令人惊讶的微小变化。目前的回顾是一个重要的评价文献关于氧甾醇,特别是体内证据的作用,氧甾醇作为胆固醇稳态的生理调节和动脉粥样硬化的因素。
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Oxysterols: Friends, Foes, or Just Fellow Passengers?
Oxysterols are oxygenated derivatives of cholesterol that are intermediates or even end products in cholesterol excretion pathways. Because of their ability to pass cell membranes and the blood-brain barrier at a faster rate than cholesterol itself, they are also important as transport forms of cholesterol. In addition, oxysterols have been ascribed a number of important roles in connection with cholesterol turnover, atherosclerosis, apoptosis, necrosis, inflammation, immunosuppression, and the development of gallstones. According to current concepts, oxysterols are physiological mediators in connection with a number of cholesterol-induced metabolic effects. However, most of the evidence for this is still indirect, and there is a discrepancy between the documented potent effects of oxysterols under in vitro conditions and the studies demonstrating that they are of physiological importance in vivo. Oxysterol-binding proteins, such as liver X receptor-&agr; (a nuclear receptor), do have a regulatory role in cholesterol turnover, but the physiological ligand of the protein has not yet been defined with certainty. Recently developed genetically engineered mouse models with markedly reduced or increased concentration of some of the oxysterols have exhibited surprisingly small changes in cholesterol turnover and homeostasis. The present review is a critical evaluation of the literature on oxysterols, in particular, the in vivo evidence for a role of oxysterols as physiological regulators of cholesterol homeostasis and as atherogenic factors.
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