Department of Physiology and Biophysics, Case Western Reserve University, Cleveland, OH 44106.
Department of Structural Biology, University of Pittsburgh School of Medicine, Pittsburgh, PA 15261.
Proc Natl Acad Sci U S A. 2021 Jul 20;118(29). doi: 10.1073/pnas.2023079118.
Mitochondria form tubular networks that undergo coordinated cycles of fission and fusion. Emerging evidence suggests that a direct yet unresolved interaction of the mechanoenzymatic GTPase dynamin-related protein 1 (Drp1) with mitochondrial outer membrane-localized cardiolipin (CL), externalized under stress conditions including mitophagy, catalyzes essential mitochondrial hyperfragmentation. Here, using a comprehensive set of structural, biophysical, and cell biological tools, we have uncovered a CL-binding motif (CBM) conserved between the Drp1 variable domain (VD) and the unrelated ADP/ATP carrier (AAC/ANT) that intercalates into the membrane core to effect specific CL interactions. CBM mutations that weaken VD-CL interactions manifestly impair Drp1-dependent fission under stress conditions and induce "donut" mitochondria formation. Importantly, VD membrane insertion and GTP-dependent conformational rearrangements mediate only transient CL nonbilayer topological forays and high local membrane constriction, indicating that Drp1-CL interactions alone are insufficient for fission. Our studies establish the structural and mechanistic bases of Drp1-CL interactions in stress-induced mitochondrial fission.
线粒体形成管状网络,经历着分裂和融合的协调循环。新出现的证据表明,机械酶 GTP 酶 dynamin 相关蛋白 1(Drp1)与线粒体膜外膜定位的cardiolipin(CL)之间的直接但尚未解决的相互作用,在外膜定位的 cardiolipin(CL)在包括线粒体自噬在内的应激条件下被外化,催化必需的线粒体超片段化。在这里,我们使用了一系列全面的结构、生物物理和细胞生物学工具,揭示了 Drp1 可变结构域(VD)和不相关的 ADP/ATP 载体(AAC/ANT)之间保守的 CL 结合基序(CBM),该基序插入膜核心以产生特定的 CL 相互作用。削弱 VD-CL 相互作用的 CBM 突变在应激条件下明显损害 Drp1 依赖性分裂,并诱导“甜甜圈”线粒体形成。重要的是,VD 膜插入和 GTP 依赖性构象重排仅介导短暂的 CL 非双层拓扑侵入和高局部膜收缩,表明 Drp1-CL 相互作用本身不足以进行分裂。我们的研究确定了应激诱导的线粒体分裂中 Drp1-CL 相互作用的结构和机制基础。