Intracellular calcium strongly potentiates agonist-activated TRPC5 channels

doi:10.1085/jgp.200810153

Published online
doi:10.1085/jgp.200810153
The Journal of General Physiology, Vol. 133, No. 5, 525-546
The Rockefeller University Press, 0022-1295 $30.00
© Blair et al.

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ARTICLE

Intracellular calcium strongly potentiates agonist-activated TRPC5 channels

Nathaniel T. Blair, J. Stefan Kaczmarek, and David E. Clapham

Howard Hughes Medical Institute, Department of Cardiology and Manton Center for Orphan Disease, Children's Hospital Boston, and Department of Neurobiology, Harvard Medical School, Boston, MA 02115

Correspondence to David E. Clapham: dclapham{at}enders.tch.harvard.edu

TRPC5 is a calcium (Ca²⁺)-permeable nonselective cation channelexpressed in several brain regions, including the hippocampus,cerebellum, and amygdala. Although TRPC5 is activated by receptorscoupled to phospholipase C, the precise signaling pathway andmodulatory signals remain poorly defined. We find that duringcontinuous agonist activation, heterologously expressed TRPC5currents are potentiated in a voltage-dependent manner ( $~$ 5-foldat positive potentials and $~$ 25-fold at negative potentials).The reversal potential, doubly rectifying current–voltagerelation, and permeability to large cations such as N-methyl-D-glucamineremain unchanged during this potentiation. The TRPC5 currentpotentiation depends on extracellular Ca²⁺: replacement by Ba²⁺or Mg²⁺ abolishes it, whereas the addition of 10 mM Ca²⁺ acceleratesit. The site of action for Ca²⁺ is intracellular, as simultaneousfura-2 imaging and patch clamp recordings indicate that potentiationis triggered at $~$ 1 µM [Ca²⁺]. This potentiation is preventedwhen intracellular Ca²⁺ is tightly buffered, but it is promotedwhen recording with internal solutions containing elevated [Ca²⁺].In cell-attached and excised inside-out single-channel recordings,increases in internal [Ca²⁺] led to an $~$ 10–20-fold increasein channel open probability, whereas single-channel conductancewas unchanged. Ca²⁺-dependent potentiation should result inTRPC5 channel activation preferentially during periods of repetitivefiring or coincident neurotransmitter receptor activation.

Abbreviations used in this paper: CCh, carbachol; GPCR, G protein–coupledreceptor; HEK, human embryonic kidney; IP₃, inositol tris (1,4,5)phosphate; M1R, muscarinic type 1 receptor; NCS-1, neuronalCa²⁺ sensor 1; PIP₂, phosphatidylinositol 4,5-bisphosphate;TRP, transient receptor potential.

© 2009 Blair et al.
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