Calcium-activated chloride channels

Calcium-activated chloride channels (CaCCs) play important roles in cellular physiology, including epithelial secretion of electrolytes and water, sensory transduction, regulation of neuronal and cardiac excitability, and regulation of vascular tone. This review discusses the physiological roles of these channels, their mechanisms of regulation and activation, and the mechanisms of anion selectivity and conduction. Despite the fact that CaCCs are so broadly expressed in cells and play such important functions, understanding these channels has been limited by the absence of specific blockers and the fact that the molecular identities of CaCCs remains in question. Recent status of the pharmacology and molecular identification of CaCCs is evaluated. Copyright © 2005 by Annual Reviews. All rights reserved.

Bestrophin; CFTR; Epithelia; Ion channels; Secretion annexin; bestrophin; chloride channel; cyclic GMP; guanine nucleotide binding protein; inositol phosphate; transmembrane conductance regulator; unclassified drug; anion transport; blood vessel tone; calcium activated chloride channel; calcium conductance; cell function; cell pH; channel gating; cystic fibrosis; electrolyte transport; exocrine gland; gene; heart muscle excitability; intestine epithelium cell; ion conductance; ion permeability; nerve cell excitability; phototransduction; polyspermy; priority journal; protein expression; protein phosphorylation; regulatory mechanism; respiratory epithelium; review; secretion; signal transduction; smooth muscle contraction; water transport; Animals; Calcium; Chloride Channels; Humans; Ion Channel Gating

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