Membrane-dependent Conformational Changes Initiate Cholesterol-dependent Cytolysin Oligomerization and Intersubunit Beta-strand Alignment

Overview

Journal Nat Struct Mol Biol

Specialties Cell Biology
Molecular Biology

Date 2004 Jul 6

PMID 15235590

Citations 90

Authors

Rajesh Ramachandran

Rodney K Tweten

Arthur E Johnson

Affiliations

Soon will be listed here.

Abstract

Cholesterol-dependent cytolysins are bacterial protein toxins that bind to cholesterol-containing membranes, form oligomeric complexes and insert into the bilayer to create large aqueous pores. Membrane-dependent structural rearrangements required to initiate the oligomerization of perfringolysin O monomers have been identified, as have the monomer-monomer interaction surfaces, using site-specific mutagenesis, disulfide trapping and multiple fluorescence techniques. Upon binding to the membrane, a structural element in perfringolysin O moves to expose the edge of a previously hidden beta-strand that forms the monomer-monomer interface and is required for oligomer assembly. The beta-strands that form the interface each contain a single aromatic residue, and these aromatics appear to stack, thereby aligning the transmembrane beta-hairpins of adjacent monomers in the proper register for insertion. Collectively, these data reveal a novel membrane binding-dependent mechanism for regulating cytolysin monomer-monomer association and pore formation.

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