Department of Molecular and Cellular Biology, University of California, Davis, CA 95616, USA.
Proc Natl Acad Sci U S A. 2013 Feb 5;110(6):E458-67. doi: 10.1073/pnas.1215232110. Epub 2013 Jan 22.
To elucidate the functional roles of mitochondrial dynamics in vivo, we identified genes that become essential in cells lacking the dynamin-related proteins Fzo1 and Dnm1, which are required for mitochondrial fusion and division, respectively. The screen identified Num1, a cortical protein implicated in mitochondrial division and distribution that also functions in nuclear migration. Our data indicate that Num1, together with Mdm36, forms a physical tether that robustly anchors mitochondria to the cell cortex but plays no direct role in mitochondrial division. Our analysis indicates that Num1-dependent anchoring is essential for distribution of the static mitochondrial network in fzo1 dnm1 cells. Consistently, expression of a synthetic mitochondria-cortex tether rescues the viability of fzo1 dnm1 num1 cells. We find that the cortical endoplasmic reticulum (ER) also is a constituent of the Num1 mitochondria-cortex tether, suggesting an active role for the ER in mitochondrial positioning in cells. Thus, taken together, our findings identify Num1 as a key component of a mitochondria-ER-cortex anchor, which we termed "MECA," that functions in parallel with mitochondrial dynamics to distribute and position the essential mitochondrial network.
为了阐明线粒体动力学在体内的功能作用,我们鉴定了在缺失分别负责线粒体融合和分裂的 dynamin 相关蛋白 Fzo1 和 Dnm1 的细胞中成为必需的基因。该筛选鉴定了 Num1,一种涉及线粒体分裂和分布的皮质蛋白,也参与核迁移。我们的数据表明,Num1 与 Mdm36 形成物理束缚,将线粒体牢固地锚定在细胞皮质上,但在直接参与线粒体分裂中不起作用。我们的分析表明,Num1 依赖性锚定对于 fzo1 dnm1 细胞中静态线粒体网络的分布至关重要。一致地,表达合成的线粒体-皮质束缚可以挽救 fzo1 dnm1 num1 细胞的活力。我们发现皮质内质网(ER)也是 Num1 线粒体-皮质束缚的组成部分,这表明 ER 在细胞中线粒体定位中具有积极作用。因此,总的来说,我们的发现确定了 Num1 作为线粒体-ER-皮质锚的关键组成部分,我们称之为“MECA”,它与线粒体动力学平行发挥作用,以分布和定位必需的线粒体网络。