AI Article Synopsis
- The study explores how the Na/Ca exchanger (NCX) activates ERK1/2 in response to the pro-angiogenic factor VEGF in human endothelial cells, focusing on the role of the TRPC3 channel.
- Researchers found that inhibiting TRPC3 diminished ERK1/2 activation, PKCα activity, and Ca transients, leading to reduced angiogenesis, as evidenced by lower endothelial tubular differentiation.
- The findings suggest that activation of TRPC3 and subsequent NCX reversal are crucial for VEGF-induced signaling and angiogenesis, highlighting their potential as therapeutic targets in diseases with abnormal VEGF signaling.
Article Abstract
It has been previously demonstrated that the bi-directional transporter Na/Ca exchanger (NCX) working in the reverse (Ca-influx) - mode promotes the activation of ERK1/2 in response to the key pro-angiogenic cytokine VEGF in human endothelial cells (ECs). However, the molecular event(s) that elicit NCX reversal in VEGF-stimulated ECs remain unclear. Here we investigated whether Na influx via the diacylglycerol (DAG) - activated non-selective cation channel TRPC3 was functionally associated with NCX and whether its activity was required for VEGF-induced ERK1/2 activation and angiogenesis. We provide evidence that TRPC3 inhibitors and siRNA attenuated ERK1/2 phosphorylation, reduced PKCα activity and partially suppressed Ca transients in response to VEGF. Additionally, TRPC3 inhibitors and siRNA significantly suppressed endothelial tubular differentiation, an in vitro indicator of angiogenesis. We also report that simulating PLCγ activation downstream of VEGF receptor 2 by application of the cell-permeable DAG analogue 1-oleoyl-2-acetyl-sn-glycerol (OAG) was sufficient to activate ERK1/2 and enhance tubular differentiation. OAG-induced ERK1/2 activation and tubulogenesis were significantly suppressed by TRPC3 and reverse-mode NCX inhibitors and siRNA. Moreover, whilst both reverse-mode NCX and TRPC3 inhibitors attenuated OAG-induced Ca transients, only TRPC3 antagonists blunted Na influx in response to OAG. Importantly, when Na was increased in ECs by inhibiting the Na-K-ATPase, TRPC3 activity was dispensable for OAG-induced ERK1/2 phosphorylation. Collectively, our research suggests that DAG generation downstream of VEGF receptors activatesTRPC3 causing Na influx with subsequent reversal of NCX, ERK1/2 activation and ultimately contributes to enhanced angiogenesis. Targeting reverse-mode NCX and its upstream initiator TRPC3 could be clinically relevant in conditions characterised by abnormal VEGF signalling.
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| http://dx.doi.org/10.1016/j.cellsig.2017.05.013 | DOI Listing |
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