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Visualizing the Domino-Like Prepore-to-Pore Transition of Streptolysin O by High-Speed AFM.

Authors :
Ariyama H
Source :
The Journal of membrane biology [J Membr Biol] 2023 Feb; Vol. 256 (1), pp. 91-103. Date of Electronic Publication: 2022 Aug 18.
Publication Year :
2023

Abstract

Pore-forming proteins (PFPs) are produced by various organisms, including pathogenic bacteria, and form pores within the target cell membrane. Streptolysin O (SLO) is a PFP produced by Streptococcus pyogenes and forms high-order oligomers on the membrane surface. In this prepore state, multiple α-helices in domain 3 of each subunit exist as unfolded structures and transiently interact with each other. They subsequently transition into transmembrane β-hairpins (TMHs) and form pores with diameters of 20-30 nm. However, in this pore formation process, the trigger of the transition in a subunit and collaboration between subunits remains elusive. Here, I observed the dynamic pore formation process using high-speed atomic force microscopy. During the oligomer transition process, each subunit was sequentially inserted into the membrane, propagating along the oligomer in a domino-like fashion (chain reaction). This process also occurred on hybrid oligomers containing wildtype and mutant subunits, which cannot insert into the membrane because of an introduced disulfide bond. Furthermore, propagation still occurred when an excessive force was added to hybrid oligomers in the prepore state. Based on the observed chain reactions, I estimate the free energies and forces that trigger the transition in a subunit. Furthermore, I hypothesize that the collaboration between subunits is related to the structure of their TMH regions and interactions between TMH-TMH and TMH-lipid molecules.<br /> (© 2022. The Author(s).)

Details

Language :
English
ISSN :
1432-1424
Volume :
256
Issue :
1
Database :
MEDLINE
Journal :
The Journal of membrane biology
Publication Type :
Academic Journal
Accession number :
35980453
Full Text :
https://doi.org/10.1007/s00232-022-00261-x