In the present study, we show that the eicosanoid compound, 20-hydroxyeicosatetraenoic acid (20-HETE), an important arachidonic acid metabolite, activates mouse TRPC6 in a stable, overexpressing HEK293 cell line, Hek-t6.11. Application of 20-HETE rapidly induced an inward, non-selective current in whole-cell recordings, which was inhibited by N-methyl-D-glucamine, 1.8 mM Ca 2؉ , and 100 M Gd 3؉ but remained unaffected by flufenamate and indomethacin. The current-voltage relationship obtained at low concentrations of 20-HETE (1-10 M) demonstrated slight inward rectification, whereas the highest concentration of 20-HETE tested (30 M) showed outward rectification, as shown previously for these channels using 100 M 1-oleoyl-2-acetylsn-glycerol. Dose-response curves indicate that 20-HETE activated TRPC6 channels with an EC 50 ؍ 0.8 M. Single channel analysis using inside-out patches revealed that 20-HETE increased open probability of mouse TRPC6 channels ϳ3-fold, and this was in a membrane-delimited fashion. Interestingly, 20-HETE did not provoke changes in intracellular Ca 2؉ concentrations. Thus, we have identified an arachidonic acid metabolite, 20-HETE, as a novel activator for a TRP family member, TRPC6.Cationic channels thought to be responsible for capacitative Ca 2ϩ entry, as originally defined by Putney (1, 2), have been identified in the plasmalemmal membrane of a spectrum of cells (3, 4). Capacitative Ca 2ϩ entry, through store-operated channels (SOCs) 1 is triggered by the emptying of intracellular Ca 2ϩ stores by a variety of maneuvers (4 -6). SOCs differ in their ionic selectivity, conductance, and sensitivity to inorganic and organic blockers. The best characterized SOC is the calcium release-activated calcium channel, a highly selective Ca 2ϩ ion channel first described in mast cells (7) and T lymphocytes (8), whereas non-selective cationic channels activated by store depletion have also been described (9). The molecular identity of store-operated channels has not yet been firmly established despite accumulating evidence that they could be members of the TRPC family (10 -12). The transient receptor potential (dTRP) channel, found in Drosophila eye, is a storeoperated Ca 2ϩ channel, whereas the trp-like (dTRPL) protein functions as a constitutively activated, non-selective cation channel (13-15). In mammals, seven dTRP homologs, TRPC1-TRPC7 (16 -18), have been found. Overexpression studies have demonstrated that these channels show important differences in a number of properties including their mode of activation, unitary conductance, and selectivity, which may or may not be a result of the expression system used (for reviews, see Refs. 4, 17, and 19). Moreover, the formation of heteromeric TRPC channels has been reported, whose characteristics were quite distinct from those recorded for the individual, homomeric channels; such behavior was shown for coassembly of TRPC1/ TRPC3 (20) and TRPC1/TRPC5 (21). A number of studies have reported that some members of the TRPC family can be activated by produ...
