Home > Online First > The bacterial ESCRT-III PspA rods thin lipid tubules and increase membrane curvature through helix α0 interactions
 
Journal Article FZJ-2025-03486
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The bacterial ESCRT-III PspA rods thin lipid tubules and increase membrane curvature through helix α0 interactions

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2025
National Acad. of Sciences Washington, DC

Proceedings of the National Academy of Sciences of the United States of America 122(32), e2506286122 () [10.1073/pnas.2506286122]

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Abstract: The phage shock protein A (PspA), a bacterial member of the endosomal sorting complexes required for transport (ESCRT)-III superfamily, forms rod-shaped helical assemblies that internalize membrane tubules. The N-terminal helix α0 of PspA (and other ESCRT-III members) has been suggested to act as a membrane anchor; the detailed mechanism, however, of how it binds to membranes and eventually triggers membrane fusion and/or fission events remains unclear. By solving a total of 15 cryoelectron microscopy (cryo-EM) structures of PspA and a truncation lacking the N-terminal helix α0 in the presence of Escherichia coli polar lipid membranes, we show in molecular detail how PspA interacts with and remodels membranes: Binding of the N-terminal helix α0 in the outer tubular membrane leaflet induces membrane curvature, supporting membrane tubulation by PspA. Detailed molecular dynamics simulations and free energy computations of interactions between the helix α0 and negatively charged membranes suggest a compensating mechanism between helix-membrane interactions and the energy contributions required for membrane bending. The energetic considerations are in line with the membrane structures observed in the cryo-EM images of tubulated membrane vesicles, fragmented vesicles inside tapered PspA rods, and shedded vesicles emerging at the thinner PspA rod ends. Our results provide insights into the molecular determinants and a potential mechanism of vesicular membrane remodeling mediated by a member of the ESCRT-III superfamily.

Classification:
Contributing Institute(s):
  1. Strukturbiologie (ER-C-3)
Research Program(s):
  1. 5352 - Understanding the Functionality of Soft Matter and Biomolecular Systems (POF4-535) (POF4-535)
  2. 5241 - Molecular Information Processing in Cellular Systems (POF4-524) (POF4-524)
  3. SFB 1551 R16 - Ein kovalenter und nicht-kovalenter makromolekularer Ansatz zur präzisen und schaltbaren Protein-Oligomerisierung: Grundlegende Einblicke und Kontrolle zellulärer Funktionen (R16#) (549981499) (549981499)
Database coverage:
Medline ; BIOSIS Previews ; Biological Abstracts ; Clarivate Analytics Master Journal List ; Current Contents - Agriculture, Biology and Environmental Sciences ; Current Contents - Life Sciences ; Ebsco Academic Search ; Essential Science Indicators ; IF >= 10 ; JCR ; National-Konsortium ; SCOPUS ; Science Citation Index Expanded ; Web of Science Core Collection ; Zoological Record
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 Record created 2025-08-14, last modified 2025-08-14
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