Cryo-EM structures of S-OPA1 reveal its interactions with membrane and changes upon nucleotide binding.

Danyang Zhang, Yan Zhang, Jun Ma, Chunmei Zhu, Tongxin Niu, Wenbo Chen, Xiaoyun Pang, Yujia Zhai, Fei Sun

eLife 2020 Mar 31

filter terms:

Mammalian mitochondrial inner membrane fusion is mediated by optic atrophy 1 (OPA1). Under physiological conditions, OPA1 undergoes proteolytic processing to form a membrane-anchored long isoform (L-OPA1) and a soluble short isoform (S-OPA1). A combination of L-OPA1 and S-OPA1 is essential for efficient membrane fusion; however, the relevant mechanism is not well understood. In this study, we investigate the cryo-electron microscopic structures of S-OPA1-coated liposomes in nucleotide-free and GTPγS-bound states. S-OPA1 exhibits a general dynamin-like structure and can assemble onto membranes in a helical array with a dimer building block. We reveal that hydrophobic residues in its extended membrane-binding domain are critical for its tubulation activity. The binding of GTPγS triggers a conformational change and results in a rearrangement of the helical lattice and tube expansion similar to that of S-Mgm1. These observations indicate that S-OPA1 adopts a dynamin-like power stroke membrane remodeling mechanism during mitochondrial inner membrane fusion. © 2020, Zhang et al.

Citation

Danyang Zhang, Yan Zhang, Jun Ma, Chunmei Zhu, Tongxin Niu, Wenbo Chen, Xiaoyun Pang, Yujia Zhai, Fei Sun. Cryo-EM structures of S-OPA1 reveal its interactions with membrane and changes upon nucleotide binding. eLife. 2020 Mar 31;9