Abstract
Transient receptor potential vanilloid 2 (TRPV2) is a Ca2+-permeable non-selective cation channel. Despite the significant roles of TRPV2 in immunological response, cancer progression and cardiac development, pharmacological probes of TRPV2 remain to be identified. We aimed to discover TRPV2 inhibitors and to elucidate their molecular mechanism of action. Fluorescence-based Ca2+ assay in HEK-293 cells expressing murine TRPV2 was used to identify plumbagin as a novel TRPV2 inhibitor. Patch-clamp, in silico docking and site-directed mutagenesis were applied to investigate the molecular mechanisms critical for plumbagin interaction. ELISA and qPCR were used to assess nitric oxide release and mRNA levels of inflammatory mediators, respectively. si-RNA interference was used to knock down TRPV2 expression, which was validated by western blotting. Neurological and histological analyses were used to examine brain injury of mice following middle cerebral artery occlusion/reperfusion (MCAO/R). Plumbagin is a potent TRPV2 negative allosteric modulator with an IC50 value of 0.85 μM, exhibiting >14-fold selectivity over TRPV1, TRPV3 and TRPV4. Plumbagin suppresses TRPV2 activity by decreasing the channel open probability without affecting the unitary conductance. Moreover, plumbagin binds to an extracellular pocket formed by the pore helix and flexible loop between transmembrane helices S5 and S6 of TRPV2. Plumbagin effectively suppresses LPS-induced inflammation of BV-2 microglia and ameliorates brain injury of MCAO/R mice. Plumbagin is a novel pharmacological probe to study TRPV2 pathophysiology. TRPV2 is a novel molecular target for the treatment of neuroinflammation and ischemic stroke.
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