Structural analysis and modeling reveals new mechanisms governing ESCRT-III spiral filament assembly

Qing Tao Shen, Amber L. Schuh, Yuqing Zheng, Kyle Quinney, Lei Wang, Michael Hanna, Julie C. Mitchell, Marisa S. Otegui, Paul Ahlquist, Qiang Cui, Anjon Audhya

Research output: Contribution to journalArticlepeer-review

94 Scopus citations

Abstract

The scission of biological membranes is facilitated by a variety of protein complexes that bind and manipulate lipid bilayers. ESCRT-III (endosomal sorting complex required for transport III) filaments mediate membrane scission during the ostensibly disparate processes of multivesicular endosome biogenesis, cytokinesis, and retroviral budding. However, mechanisms by which ESCRT-III subunits assemble into a polymer remain unknown. Using cryogenic electron microscopy (cryo-EM), we found that the full-length ESCRT-III subunit Vps32/ CHMP4B spontaneously forms single-stranded spiral filaments. The resolution afforded by two-dimensional cryo-EM combined with molecular dynamics simulations revealed that individual Vps32/CHMP4B monomers within a filament are flexible and able to accommodate a range of bending angles. In contrast, the interface between monomers is stable and refractory to changes in conformation. We additionally found that the carboxyl terminus of Vps32/CHMP4B plays a key role in restricting the lateral association of filaments. Our findings highlight new mechanisms by which ESCRT-III filaments assemble to generate a unique polymer capable of membrane remodeling in multiple cellular contexts.

Original languageEnglish
Pages (from-to)763-777
Number of pages15
JournalJournal of Cell Biology
Volume206
Issue number6
DOIs
StatePublished - 2014
Externally publishedYes

Funding

FundersFunder number
National Institutes of HealthGM088151, S10 RR13790
National Science FoundationDMS-1160360, MCB1157824
National Institute of General Medical SciencesT32GM007215

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