| Abstract: | Both TRPC6 and reactive oxygen species (ROS) play an important role in regulating vascular function. However, their interplay has not been explored. The present study examined whether activation of TRPC6 in vascular smooth muscle cells (VSMCs) by ROS was a physiological mechanism for regulating vascular tone by vasoconstrictors. In A7r5 cells, arginine vasopressin (AVP) evoked a striking Ca2+ entry response that was significantly attenuated by either knocking down TRPC6 using siRNA or inhibition of NADPH oxidases with apocynin or diphenyleneiodonium. Inhibition of TRPC6 or ROS production also decreased AVP-stimulated membrane currents. In primary cultured aortic VSMCs, catalase and diphenyleneiodonium significantly suppressed AVP- and angiotensin II-induced whole cell currents and Ca2+ entry, respectively. In freshly isolated and endothelium-denuded thoracic aortas, hyperforin (an activator of TRPC6), but not its vehicle, induced dose- and time-dependent constriction in TRPC6 wide type (WT) mice. This response was not observed in TRPC6 knock-out (KO) mice. Consistent with the ex vivo study, hyperforin stimulated a robust Ca2+ entry in the aortic VSMCs from WT mice but not from KO mice. Phenylephrine induced a dose-dependent contraction of WT aortic segments, and this response was inhibited by catalase. Moreover, H2O2 itself evoked Ca2+ influx and inward currents in A7r5 cells, and these responses were significantly attenuated by either inhibition of TRPC6 or blocking vesicle trafficking. H2O2 also induced inward currents in primary VSMCs from WT but not from TRPC6 KO mice. Additionally, H2O2 stimulated a dose-dependent constriction of the aortas from WT mice but not from the vessels of KO mice. Furthermore, TIRFM showed that H2O2 triggered membrane trafficking of TRPC6 in A7r5 cells. These results suggest a new signaling pathway of ROS-TRPC6 in controlling vessel contraction by vasoconstrictors. |
