Structure of the human TRPM4 ion channel in a lipid nanodisc.

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Title: Structure of the human TRPM4 ion channel in a lipid nanodisc.
Authors: Autzen, Henriette E., Myasnikov, Alexander G., Campbell, Melody G., Asarnow, Daniel, Julius, David, Yifan Cheng
Source: Science (pre-March 2025). 1/12/2018, Vol. 359 Issue 6372, p228-232. 5p. 4 Color Photographs.
Subjects: TRP channels, Ion channels, Lipids, Calcium, Morphology, Molecular dynamics
Abstract: Transient receptor potential (TRP) melastatin 4 (TRPM4) is a widely expressed cation channel associated with a variety of cardiovascular disorders. TRPM4 is activated by increased intracellular calcium in a voltage-dependent manner but, unlike many other TRP channels, is permeable to monovalent cations only. Here we present two structures of full-length human TRPM4 embedded in lipid nanodiscs at ~3-angstrom resolution, as determined by single-particle cryo–electron microscopy. These structures, with and without calcium bound, reveal a general architecture for this major subfamily of TRP channels and a well-defined calcium-binding site within the intracellular side of the S1-S4 domain. The structures correspond to two distinct closed states. Calcium binding induces conformational changes that likely prime the channel for voltage-dependent opening. [ABSTRACT FROM AUTHOR]
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Database: Psychology and Behavioral Sciences Collection
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Abstract:Transient receptor potential (TRP) melastatin 4 (TRPM4) is a widely expressed cation channel associated with a variety of cardiovascular disorders. TRPM4 is activated by increased intracellular calcium in a voltage-dependent manner but, unlike many other TRP channels, is permeable to monovalent cations only. Here we present two structures of full-length human TRPM4 embedded in lipid nanodiscs at ~3-angstrom resolution, as determined by single-particle cryo–electron microscopy. These structures, with and without calcium bound, reveal a general architecture for this major subfamily of TRP channels and a well-defined calcium-binding site within the intracellular side of the S1-S4 domain. The structures correspond to two distinct closed states. Calcium binding induces conformational changes that likely prime the channel for voltage-dependent opening. [ABSTRACT FROM AUTHOR]
ISSN:00368075
DOI:10.1126/science.aar4510