Eight members of the TRP-melastatin (TRPM) subfamily have been identified, whose physiological functions and distribution are poorly characterized. Although tissue expression and distribution patterns have been reported for individual TRPM channels, comparisons between individual studies are not possible because of variations in analysis techniques and tissue selection. We report here a comparative analysis of the expression patterns of all of the human TRPM channels in selected peripheral tissues and the central nervous system (CNS) using two distinct but complimentary approaches: TaqMan and SYBR Green real-time quantitative reverse transcription polymerase chain reaction (RT-PCR). These techniques generated comparative distribution profiles and demonstrated tissue-specific co-expression of TRPM mRNA species, indicating significant potential for the formation of heteromeric channels. TRPM channels 2, 4, 5, 6, and 7 in contrast to 1, 3, and 8 are widely distributed in the CNS and periphery. The tissues demonstrating highest expression for individual family members were brain (TRPM1), brain and bone marrow (TRPM2), brain and pituitary (TRPM3), intestine and prostate (TRPM4), intestine, pancreas, and prostate (TRPM5), intestine and brain (TRPM6), heart, pituitary, bone, and adipose tissue (TRPM7), and prostate and liver (TRPM8). The data reported here will guide the elucidation of TRPM channel physiological functions.Key Words: Ion channel; TRPM; Expression; TaqMan; SYBR Green.
INTRODUCTIONThe mammalian transient receptor potential (TRP) channels form a superfamily consisting of diverse nonselective cation channels that both sense and Address correspondence to Shaun McNulty, Neurology and GI Centre of Excellence for Drug Discovery, GlaxoSmithKline Research and Development Limited, Harlow, UK. E-mail: shaun.mcnulty@ntworld.com 159 160 E. Fonfria et al. respond to changes in the cellular environment [for reviews see (1-3)]. These channels are structurally similar to the first nonmammalian TRP channels identified and characterized from Drosophila (4,5). Together with voltagegated Ca 2+ channels, they likely provide the major route of Ca 2+ entry in numerous cell types. Mammalian TRP channels possess six putative transmembrane domains that are thought to assemble in vivo as tetramers. They have a wide tissue distribution and most channels demonstrate the potential for alternative splicing. The existence of TRP heterodimers and splice variants increases significantly the potential for functional diversity. To date, the in vivo physiological functions of many TRP channels remain poorly characterized.The TRPM subfamily was named after the first member identified (Melastatin) and is also referred to as the long TRP channel family due to the large N-and C-termini regions that these channels contain. This family is composed of eight channels that possess distinct biophysical and physiological properties [for review see (6,7)]. A number of these channels (including TRPM2) are permeable to extracellular calcium on activati...
