Abstract

The transient receptor potential (TRPC) family of Ca2+ permeable, non-selective cation channels is abundantly expressed in the brain, and can function as store-operated (SOC) and store-independent channels depending on their interaction with the ER Ca2+ sensor STIM1. TRPC1 and TRPC5 have critical roles in neurite outgrowth, however which of their functions regulate neurite outgrowth is unknown. In this study, we investigated the effects of TRPC channels and their STIM1-induced SOC activity on neurite outgrowth of PC12 cells. We report that PC12 cell differentiation down-regulates TRPC5 expression, whereas TRPC1 expression is retained. TRPC1 and TRPC5 interact with STIM1 through the STIM1 ERM domain. Transfection of TRPC1 and TRPC5 increased the receptor-activated Ca2+ influx that was markedly augmented by the co-expression of STIM1. Topical expression of TRPC1 in PC12 cells markedly increased neurite outgrowth while that of TRPC5 suppressed neurite outgrowth. Suppression of neurite outgrowth by TRPC5 requires the channel function of TRPC5. However, strikingly, multiple lines of evidence show that the TRPC1-induced neurite outgrowth was independent of TRPC1-mediated Ca2+ influx. Thus, a) TRPC1 and TRPC5 similarly increased Ca2+ influx but only TRPC1 induced neurite outgrowth, b) the constitutively STIM1D76A mutant that activates Ca2+ influx by TRPC and Orai channels did not increase neurite outgrowth, c) co-expression of TRPC5 with TRPC1 suppressed the effect of TRPC1 on neurite outgrowth, d) and most notable, channel-dead pore mutant of TRPC1 increased neurite outgrowth to the same extent as TRPC1WT. Suppression of TRPC1-induced neurite outgrowth by TRPC5 was due to a marked reduction in the surface expression of TRPC1. We conclude that the regulation of neurite outgrowth by TRPC1 is independent of Ca2+ influx and TRPC1-promoted neurite outgrowth depends on the surface expression of TRPC1. It is likely that TRPC1 acts as a scaffold at the cell surface to assemble a signaling complex to stimulate neurite outgrowth.

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