srebp介导的基因表达调控。

Zhao Xiaoping, Yang Fajun
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引用次数: 19

摘要

甾醇调节元件结合蛋白(SREBPs)在调节脂质稳态中起重要作用。srebp被翻译为位于内质网(ER)膜上的无活性前体,在响应细胞内对脂质的需求时,通过蛋白水解过程被激活。裂解的SREBPs的氨基末端片段随后作为同型二聚体转运到细胞核中,并通过与启动子中的甾醇反应元件(SREs)结合来刺激靶基因的转录。大量使用细胞培养或转基因小鼠模型的研究表明,SREBPs的主要靶基因包括脂肪酸和胆固醇生物合成途径中的限速酶以及低密度脂蛋白(LDL)受体。过去对SREBPs的蛋白水解成熟已经有了很好的研究。然而,最近的研究也提高了我们对核SREBPs调控的理解。在细胞核中,SREBPs与特定的转录辅助因子(如CBP/p300和Mediator complex)相互作用,从而刺激或抑制其转录活性。此外,核SREBP蛋白的稳定性受磷酸化和乙酰化的动态调控。这种蛋白-蛋白相互作用和翻译后修饰通过调节SREBPs的转录活性,将细胞外信号(如胰岛素)或细胞内信号(如氧化应激)与脂质生物合成优雅地联系起来。在正常生理状态下,脂质稳态是严格维持的。然而,SREBP通路在病理生理条件下经常失调,如肥胖、2型糖尿病和脂肪肝疾病。因此,SREBPs的新调控机制可能为对抗这些代谢疾病提供新的机会。
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Regulation of SREBP-Mediated Gene Expression.

The sterol regulatory element-binding proteins (SREBPs) play an important role in regulating lipid homeostasis. Translated as inactive precursors that are localized in the endoplasmic reticulum (ER) membrane, SREBPs are activated through a proteolytic process in response to intracellular demands for lipids. The cleaved amino-terminal fragments of SREBPs then translocate into the nucleus as homodimers and stimulate the transcription of target genes by binding to the sterol response elements (SREs) in their promoters. Numerous studies using cell culture or genetically modified mouse models have demonstrated that the major target genes of SREBPs include rate-limiting enzymes in the pathways of fatty acid and cholesterol biosynthesis as well as the low-density lipoprotein (LDL) receptor. The proteolytic maturation of SREBPs has been well studied in the past. However, recent studies have also improved our understanding on the regulation of nuclear SREBPs. In the nucleus, SREBPs interact with specific transcriptional cofactors, such as CBP/p300 and the Mediator complex, resulting in stimulation or inhibition of their transcriptional activities. In addition, nuclear SREBP protein stability is dynamically regulated by phosphorylation and acetylation. Such protein-protein interactions and post-translational modifications elegantly link the extracellular signals, such as insulin, or intracellular signals, such as oxidative stress, to lipid biosynthesis by modulating the transcriptional activity of SREBPs. Under normal physiological states, lipid homeostasis is strictly maintained. However, the SREBP pathways are often dysregulated in pathophysiological conditions, such as obesity, type 2 diabetes, and fatty liver diseases. Thus, the novel regulatory mechanisms of SREBPs may provide new opportunities for fighting these metabolic diseases.

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Reversible inactivation of dihydrolipoamide dehydrogenase by Angeli's salt. Regulation of SREBP-Mediated Gene Expression.
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