Transient Receptor Potential Cation Channels in Disease

doi:10.1152/physrev.00021.2006

Transient Receptor Potential Cation Channels in Disease

Bernd Nilius, Grzegorz Owsianik, Thomas Voets and John A. Peters

Department of Physiology, Campus Gasthuisberg, KULeuven, Leuven, Belgium; and Neurosciences Institute, Division of Pathology and Neuroscience, Ninewells Hospital and Medical School, The University of Dundee, Dundee, United Kingdom

The transient receptor potential (TRP) superfamily consistsof a large number of cation channels that are mostly permeableto both monovalent and divalent cations. The 28 mammalian TRPchannels can be subdivided into six main subfamilies: the TRPC(canonical), TRPV (vanilloid), TRPM (melastatin), TRPP (polycystin),TRPML (mucolipin), and the TRPA (ankyrin) groups. TRP channelsare expressed in almost every tissue and cell type and playan important role in the regulation of various cell functions.Currently, significant scientific effort is being devoted tounderstanding the physiology of TRP channels and their relationshipto human diseases. At this point, only a few channelopathiesin which defects in TRP genes are the direct cause of cellulardysfunction have been identified. In addition, mapping of TRPgenes to susceptible chromosome regions (e.g., translocations,breakpoint intervals, increased frequency of polymorphisms)has been considered suggestive of the involvement of these channelsin hereditary diseases. Moreover, strong indications of theinvolvement of TRP channels in several diseases come from correlationsbetween levels of channel expression and disease symptoms. Finally,TRP channels are involved in some systemic diseases due to theirrole as targets for irritants, inflammation products, and xenobiotictoxins. The analysis of transgenic models allows further extrapolationsof TRP channel deficiency to human physiology and disease. Inthis review, we provide an overview of the impact of TRP channelson the pathogenesis of several diseases and identify severalTRPs for which a causal pathogenic role might be anticipated.

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