Structure and activity of the N-terminal region of the eukaryotic cytolysin equinatoxin II

Drechsler, A; Potrich, C; Sabo, JK; Frisanco, M; Guella, G; Dalla Serra, M; Anderluh, G; Separovic, F; Norton, RS

Author(s): Drechsler, A; Potrich, C; Sabo, JK; Frisanco, M; Guella, G; Dalla Serra, M; Anderluh, G; Separovic, F; Norton, RS;
Details: Publication Year 2006-02-14,Volume 45,Issue #6,Page 1818-1828
Journal Title: BIOCHEMISTRY
Publication Type: Journal Article
Abstract: The actinoporins are a family of proteins from sea anemones that lyse cells by forming pores in cell membranes. Sphingomyelin plays an important role in their lytic activity, with membranes lacking this lipid being resistant to these toxins. Pore formation by the actinoporin equinatoxin II (EqTII) proceeds by membrane binding via a surface rich in aromatic residues, followed by translocation of the N-terminal region to the membrane and, finally, across the bilayer to form a functional pore. A key feature of this mechanism is the ability of the N-terminal region to form a stable, bilayer-spanning helix in the membrane, which in turn requires dissociation of the N-terminus from the bulk of the protein and significant extension of the N-terminal helix of native EqTII. In this study the structures of three peptides corresponding to residues 11-29, 11-32, and 1-32, respectively, of EqTII have been investigated by high-resolution nuclear magnetic resonance and Fourier transform infrared spectroscopy. The 32-residue peptide lacks ordered secondary structure in water, but residues 6-28 form a helix in dodecylphosphocholine micelles. Although this helix is long enough to span a bilayer membrane, this peptide and the shorter analogues display limited permeabilizing activity in large unilamellar vesicles and very weak hemolytic activity in human red blood cells. Thus, while the N-terminal region has the structural features required for this unusual mechanism of pore formation, the lack of activity of the isolated N-terminus shows that the bulk of the protein is essential for efficient pore formation by facilitating initial membrane binding, interacting with sphingomyelin, or stabilizing the oligomeric pore.
Publisher: AMER CHEMICAL SOC
Keywords: PORE-FORMING TOXIN; ANEMONE ACTINIA-EQUINA; MODEL LIPID-MEMBRANES; SEA-ANEMONE; SECONDARY STRUCTURE; STOICHACTIS-HELIANTHUS; INFRARED-SPECTROSCOPY; PROTEIN STRUCTURES; NMR-SPECTROSCOPY; SELF-ASSOCIATION
Publisher's Version: https://doi.org/10.1021/bi052166o
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Creation Date: 2006-02-14 12:00:00