TRP channels and lipids: from Drosophila to mammalian physiology

doi:10.1113/jphysiol.2006.118372

TRP channels and lipids: from Drosophila to mammalian physiology

Roger C Hardie¹^*

¹ Cambridge University Department of Physiology, Development and Neuroscience

^* To whom correspondence should be addressed. E-mail: rch14{at}hermes.cam.ac.uk.

The Transient Receptor Potential (TRP) ion channel family wasthe last major ion channel family to be discovered. The prototypicalmember (dTRP) was identified by a forward genetic approach inDrosophila, where it represents the transduction channel inthe photoreceptors, activated downstream of a Gq coupled PLC.Almost 15 years on, 29 vertebrate TRP isoforms are recognised,distributed amongst 7 subfamilies (TRPC, TRPV, TRPM, TRPML,TRPP, TRPA, TRPN). They subserve a wide range of functions throughoutthe body, most notably, though by no means exclusively, in sensorytransduction and in vascular smooth muscle. However, their precisephysiological roles and mechanism of activation and regulationare still only gradually being revealed. Most TRP channels aresubject to multiple modes of regulation, but a common themeamongst the TRPC/V/M subfamilies is their regulation by lipidmessengers. Genetic evidence supports an excitatory role ofdiacylglycerol (DAG) for the dTRP’s, although curiouslyonly DAG metabolites (PUFAs) have been found to activate theDrosophila channels. TRPC2,3,6& 7 are widely accepted asDAG-activated channels, although TRPC3 can also be regulatedvia a store-operated mechanism. More recently PIP2 has beenshown to be required for activity of TRPV5, TRPM4,5,7 &8, whilst it may inhibit TRPV1 and the dTRPs. Although compellingevidence for a direct interaction of DAG with the TRPC channelsis lacking, mutagenesis studies have identified putative PIP2interacting domains in the C-termini of several TRPV and TRPMchannels.

Key words: Calcium signalling • Nonspecific monovalent ion current • Phospholipase C

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