LTRPC7 is a Mg[middle dot]ATP-regulated divalent cation channel required for cell viability.
Nadler, Monica J. S. *+; Hermosura, Meredith C. *++; Inabe, Kazunori *[S]; Perraud, Anne-Laure *+; Zhu, Qiqin +; Stokes, Alexander J. +; Kurosaki, Tomohiro [S]; Kinet, Jean-Pierre +; Penner, Reinhold ++; Scharenberg, Andrew M. +[//]; Fleig, Andrea ++
[Letter] Nature. 411(6837):590-595, May 31, 2001.

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The molecular mechanisms that regulate basal or background entry of divalent cations into mammalian cells are poorly understood. Here we describe the cloning and functional characterization of a Ca2 - and Mg2 -permeable divalent cation channel, LTRPC7 (nomenclature compatible with that proposed in ref. 1), a new member of the LTRPC family of putative ion channels. Targeted deletion of LTRPC7 in DT-40 B cells was lethal, indicating that LTRPC7 has a fundamental and nonredundant role in cellular physiology. Electrophysiological analysis of HEK-293 cells overexpressing recombinant LTRPC7 showed large currents regulated by millimolar levels of intracellular Mg[middle dot]ATP and Mg[middle dot]GTP with the permeation properties of a voltage-independent divalent cation influx pathway. Analysis of several cultured cell types demonstrated small magnesium-nucleotide-regulated metal ion currents (MagNuM) with regulation and permeation properties essentially identical to the large currents observed in cells expressing recombinant LTRPC7. Our data indicate that LTRPC7, by virtue of its sensitivity to physiological Mg[middle dot]ATP levels, may be involved in a fundamental process that adjusts plasma membrane divalent cation fluxes according to the metabolic state of the cell.

(C) 2001 Nature Publishing Group