Nonhelical leash and alpha-helical structures determine the potency of a peptide antagonist of human T-cell leukemia virus entry

Antonis Mirsaliotis, Daniel Lamb, David W. Brighty

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    10 Citations (Scopus)

    Abstract

    Viral fusion proteins mediate the entry of enveloped viral particles into cells by inducing fusion of the viral and target cell membranes. Activated fusion proteins undergo a cascade of conformational transitions and ultimately resolve into a compact trimer of hairpins or six-helix bundle structure, which pulls the interacting membranes together to promote lipid mixing. Significantly, synthetic peptides based on a C-terminal region of the trimer of hairpins are potent inhibitors of membrane fusion and viral entry, and such peptides are typically extensively alpha-helical. In contrast, an atypical peptide inhibitor of human T-cell leukemia virus (HTLV) includes alpha-helical and nonhelical leash segments. We demonstrate that both the C helix and C-terminal leash are critical to the inhibitory activities of these peptides. Amino acid side chains in the leash and C helix extend into deep hydrophobic pockets at the membrane-proximal end of the HTLV type 1 (HTLV-1) coiled coil, and these contacts are necessary for potent antagonism of membrane fusion. In addition, a single amino acid substitution within the inhibitory peptide improves peptide interaction with the core coiled coil and yields a peptide with enhanced potency. We suggest that the deep pockets on the coiled coil are ideal targets for small-molecule inhibitors of HTLV-1 entry into cells. Moreover, the extended nature of the HTLV-1-inhibitory peptide suggests that such peptides may be intrinsically amenable to modifications designed to improve inhibitory activity. Finally, we propose that leash-like mimetic peptides may be of value as entry inhibitors for other clinically important viral infections.

    Original languageEnglish
    Pages (from-to)4965-4973
    Number of pages9
    JournalJournal of Virology
    Volume82
    Issue number10
    DOIs
    Publication statusPublished - May 2008

    Keywords

    • ENVELOPE GLYCOPROTEIN
    • MEMBRANE-FUSION
    • COILED-COIL
    • CRYSTAL-STRUCTURE
    • DISULFIDE-BOND
    • HIV-1 ENTRY
    • PROTEIN EXPRESSION
    • CORE STRUCTURE
    • EBOLA-VIRUS
    • TYPE-1

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