Howard Hughes Medical Institute and Division of Biology, California Institute of Technology, Pasadena, CA 91125, USA.
Mol Biol Cell. 2009 Aug;20(15):3525-32. doi: 10.1091/mbc.e09-03-0252. Epub 2009 May 28.
Mitochondrial fusion requires the coordinated fusion of the outer and inner membranes. Three large GTPases--OPA1 and the mitofusins Mfn1 and Mfn2--are essential for the fusion of mammalian mitochondria. OPA1 is mutated in dominant optic atrophy, a neurodegenerative disease of the optic nerve. In yeast, the OPA1 ortholog Mgm1 is required for inner membrane fusion in vitro; nevertheless, yeast lacking Mgm1 show neither outer nor inner membrane fusion in vivo, because of the tight coupling between these two processes. We find that outer membrane fusion can be readily visualized in OPA1-null mouse cells in vivo, but these events do not progress to inner membrane fusion. Similar defects are found in cells lacking prohibitins, which are required for proper OPA1 processing. In contrast, double Mfn-null cells show neither outer nor inner membrane fusion. Mitochondria in OPA1-null cells often contain multiple matrix compartments bounded together by a single outer membrane, consistent with uncoupling of outer versus inner membrane fusion. In addition, unlike mitofusins and yeast Mgm1, OPA1 is not required on adjacent mitochondria to mediate membrane fusion. These results indicate that mammalian mitofusins and OPA1 mediate distinct sequential fusion steps that are readily uncoupled, in contrast to the situation in yeast.
线粒体融合需要外膜和内膜的协调融合。三种大型 GTPases——OPA1 和线粒体融合蛋白 Mfn1 和 Mfn2——对于哺乳动物线粒体的融合是必不可少的。OPA1 在显性视神经萎缩中发生突变,这是一种视神经的神经退行性疾病。在酵母中,OPA1 的同源物 Mgm1 是体外内膜融合所必需的;然而,由于这两个过程之间的紧密偶联,酵母中缺乏 Mgm1 既不会发生外膜融合也不会发生内膜融合。我们发现,OPA1 缺失的小鼠细胞在体内可以很容易地观察到外膜融合,但这些事件不会进展到内膜融合。在缺乏适当的 OPA1 加工所需的抑制素的细胞中也发现了类似的缺陷。相比之下,双 Mfn 缺失细胞既没有外膜融合也没有内膜融合。OPA1 缺失的细胞中的线粒体通常含有多个基质隔室,由单个外膜包围,这与外膜与内膜融合的解偶联一致。此外,与线粒体融合蛋白和酵母 Mgm1 不同,OPA1 不需要在相邻的线粒体上介导膜融合。这些结果表明,哺乳动物的线粒体融合蛋白和 OPA1 介导不同的连续融合步骤,这些步骤很容易解偶联,与酵母中的情况形成对比。