Abstract
Cellular membrane remodeling events such as mitochondrial dynamics, vesicle budding, and cell division rely on the large GTPases of the dynamin superfamily. Dynamins have long been characterized as fission molecules; however, how they mediate membrane fusion is largely unknown. Here we have characterized by cryo-electron microscopy and in vitro liposome fusion assays how the mitochondrial dynamin Mgm1 may mediate membrane fusion. Using cryo-EM, we first demonstrate that the Mgm1 complex is able to tether opposing membranes to a gap of ∼15 nm, the size of mitochondrial cristae folds. We further show that the Mgm1 oligomer undergoes a dramatic GTP-dependent conformational change suggesting that s-Mgm1 interactions could overcome repelling forces at fusion sites and that ultrastructural changes could promote the fusion of opposing membranes. Together our findings provide mechanistic details of the two known in vivo functions of Mgm1, membrane fusion and cristae maintenance, and more generally shed light onto how dynamins may function as fusion proteins.
Highlights
Dynamin proteins shape membranes by promoting membrane curvature, fission, and fusion
We have characterized by cryo-electron microscopy and in vitro liposome fusion assays how the mitochondrial dynamin Mgm1 may mediate membrane fusion
We demonstrate that s-Mgm1 can both tether membranes to likely support inner membrane cristae structures and undergo a striking GTP-dependent conformational change that could promote the fusion of opposing membranes
Summary
Dynamin proteins shape membranes by promoting membrane curvature, fission, and fusion. We have characterized by cryo-electron microscopy and in vitro liposome fusion assays how the mitochondrial dynamin Mgm1 may mediate membrane fusion. The mechanism of how dynamins mediate fission is largely evident from in vitro structural studies indicating membrane tubulation upon protein self-assembly and formation of highly ordered helical structures composed of repeated T-shaped dimers [3,4,5,6,7,8,9,10].
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