脂质饱和度的改变引发线粒体外膜的重塑。

IF 2.7 3区生物学 Q3 CELL BIOLOGY

Molecular Biology of the Cell Pub Date : 2025-10-01 Epub Date: 2025-07-30 DOI:10.1091/mbc.E25-01-0033

Sara Wong, Katherine R Bertram, Sai Sangeetha Balasubramaniam, Nidhi Raghuram, Thomas Knight, J Alan Maschek, James E Cox, Adam L Hughes

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引用次数: 0

摘要

脂质饱和度是膜功能和细胞器健康的关键决定因素，饱和度的变化会触发自适应质量控制机制来维持膜的完整性。在细胞膜中，线粒体外膜（OMM）是许多细胞功能的重要接口，但脂质饱和度如何影响OMM功能尚不清楚。在这里，我们发现增加的细胞内不饱和脂肪酸（UFAs）通过促进多层线粒体衍生室（MDCs）的形成来重塑OMM， MDCs将蛋白质和脂质从OMM隔离。这些作用取决于ufa与膜磷脂的结合，表明膜双层组成的变化介导了这一过程。此外，升高的UFAs损害了OMM蛋白转位酶（TOM）复合物的组装，未组装的TOM组分被捕获到mdc中。总的来说，这些发现表明磷脂饱和度的改变可能会破坏OMM蛋白复合物的稳定，并引发适应性反应，通过形成MDC来隔离多余的膜蛋白。

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Alterations in lipid saturation trigger remodeling of the outer mitochondrial membrane.

Lipid saturation is a key determinant of membrane function and organelle health, with changes in saturation triggering adaptive quality control mechanisms to maintain membrane integrity. Among cellular membranes, the outer mitochondrial membrane (OMM) is an important interface for many cellular functions, but how lipid saturation impacts OMM function remains unclear. Here, we show that increased intracellular unsaturated fatty acids (UFA) remodel the OMM by promoting the formation of multilamellar mitochondrial-derived compartments (MDC), which sequester proteins and lipids from the OMM. These effects depend on the incorporation of UFAs into membrane phospholipids, suggesting that changes in membrane bilayer composition mediate this process. Furthermore, elevated UFAs impair the assembly of the OMM protein translocase (TOM, translocase of the outer membrane) complex, with unassembled TOM components captured into MDCs. Collectively, these findings suggest that alterations in phospholipid saturation may destabilize OMM protein complexes and trigger an adaptive response to sequester excess membrane proteins through MDC formation.

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来源期刊

Molecular Biology of the Cell 生物-细胞生物学

CiteScore

6.00

自引率

6.10%

发文量

402

审稿时长

2 months

期刊介绍： MBoC publishes research articles that present conceptual advances of broad interest and significance within all areas of cell, molecular, and developmental biology. We welcome manuscripts that describe advances with applications across topics including but not limited to: cell growth and division; nuclear and cytoskeletal processes; membrane trafficking and autophagy; organelle biology; quantitative cell biology; physical cell biology and mechanobiology; cell signaling; stem cell biology and development; cancer biology; cellular immunology and microbial pathogenesis; cellular neurobiology; prokaryotic cell biology; and cell biology of disease.