重新编程的脂质代谢可保护内核膜免受不饱和脂肪的侵害。

Reprogrammed lipid metabolism protects inner nuclear membrane against unsaturated fat.

机构信息

Max Perutz Labs, University of Vienna and Medical University of Vienna, Vienna Biocenter Campus (VBC), Dr. Bohr-Gasse 9/3, 1030 Vienna, Austria.

出版信息

Dev Cell. 2021 Sep 27;56(18):2562-2578.e3. doi: 10.1016/j.devcel.2021.07.018. Epub 2021 Aug 17.

DOI:10.1016/j.devcel.2021.07.018

PMID:34407429

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8480995/

Abstract

The cell nucleus is surrounded by a double membrane. The lipid packing and viscosity of membranes is critical for their function and is tightly controlled by lipid saturation. Circuits regulating the lipid saturation of the outer nuclear membrane (ONM) and contiguous endoplasmic reticulum (ER) are known. However, how lipid saturation is controlled in the inner nuclear membrane (INM) has remained enigmatic. Using INM biosensors and targeted genetic manipulations, we show that increased lipid unsaturation causes a reprogramming of lipid storage metabolism across the nuclear envelope (NE). Cells induce lipid droplet (LD) formation specifically from the distant ONM/ER, whereas LD formation at the INM is suppressed. In doing so, unsaturated fatty acids are shifted away from the INM. We identify the transcription circuits that topologically reprogram LD synthesis and identify seipin and phosphatidic acid as critical effectors. Our study suggests a detoxification mechanism protecting the INM from excess lipid unsaturation.

摘要

细胞核被双层膜所包围。膜的脂质排列和黏度对于其功能至关重要，并且受到脂质饱和度的严格控制。目前已经了解到调节核外膜（ONM）和连续的内质网（ER）脂质饱和度的回路。但是，在内核膜（INM）中如何控制脂质饱和度仍然是一个谜。我们使用 INM 生物传感器和靶向遗传操作，表明增加脂质不饱和会导致核膜（NE）中脂质储存代谢的重新编程。细胞特异性地从远处的 ONM/ER 诱导脂滴（LD）形成，而 INM 处的 LD 形成受到抑制。通过这种方式，不饱和脂肪酸从 INM 转移。我们确定了拓扑重塑 LD 合成的转录回路，并鉴定了 seipin 和磷酸脂作为关键效应物。我们的研究表明了一种解毒机制，可防止 INM 中脂质不饱和过度。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3700/8480995/3d1227f55532/fx1.jpg

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重新编程的脂质代谢可保护内核膜免受不饱和脂肪的侵害。

Reprogrammed lipid metabolism protects inner nuclear membrane against unsaturated fat.

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