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Bcl-xL forms an ion channel in synthetic lipid membranes

Author

Listed:
  • Andy J. Minn

    (The University of Chicago
    The University of Chicago)

  • Patricio Vélez

    (Loyola University of Chicago Stritch School of Medicine)

  • Sharon L. Schendel

    (Purdue University)

  • Heng Liang

    (NMR Resarch, Abbott Laboratories)

  • Steven W. Muchmore

    (Abbott Laboratories)

  • Stephen W. Fesik

    (NMR Resarch, Abbott Laboratories)

  • Michael Fill

    (Loyola University of Chicago Stritch School of Medicine)

  • Craig B. Thompson

    (The University of Chicago
    The University of Chicago
    The University of Chicago)

Abstract

Bcl-2-related proteins are critical regulators of cell survival that are localized to the outer mitochondrial, outer nuclear and endoplasmic reticulum membranes1–4. Despite their physiological importance, the biochemical function of Bcl-2-related proteins has remained elusive. The three-dimensional structure of Bcl-xL, an inhibitor of apoptosis, was recently shown to be similar to the structures of the pore-forming domains of bacterial toxins5. A key feature of these pore-forming domains is the ability to form ion channels in biological membranes6,7. Here we demonstrate that Bcl-xL shares this functional feature. Like the bacterial toxins, Bcl-xL can insert into either synthetic lipid vesicles or planar lipid bilayers and form an ion-conducting channel. This channel is pH-sensitive and becomes cation-selective at physiological pH. The ion-conducting channel(s) formed by Bcl-xL display multiple conductance states that have identical ion selectivity. Together, these data suggest that Bcl-xL may maintain cell survival by regulating the permeability of the intracellular membranes to which it is distributed.

Suggested Citation

  • Andy J. Minn & Patricio Vélez & Sharon L. Schendel & Heng Liang & Steven W. Muchmore & Stephen W. Fesik & Michael Fill & Craig B. Thompson, 1997. "Bcl-xL forms an ion channel in synthetic lipid membranes," Nature, Nature, vol. 385(6614), pages 353-357, January.
    • Handle: RePEc:nat:nature:v:385:y:1997:i:6614:d:10.1038_385353a0
    DOI: 10.1038/385353a0
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