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    Vascular Kv7 channels control intracellular Ca2+ dynamics in smooth muscle

    Tsai, Yuan-Ming, Jones, Frederick ORCID logoORCID: https://orcid.org/0000-0003-1636-0054, Mullen, Pierce ORCID logoORCID: https://orcid.org/0000-0003-0640-4041, Porter, Karen E, Steele, Derek ORCID logoORCID: https://orcid.org/0000-0002-1339-784X, Peers, Chris and Gamper, Nikita ORCID logoORCID: https://orcid.org/0000-0001-5806-0207 (2020) Vascular Kv7 channels control intracellular Ca2+ dynamics in smooth muscle. Cell calcium, 92. 102283. ISSN 0143-4160

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    Abstract

    Voltage-gated Kv7 (or KCNQ) channels control activity of excitable cells, including vascular smooth muscle cells (VSMCs), by setting their resting membrane potential and controlling other excitability parameters. Excitation-contraction coupling in muscle cells is mediated by Ca<sup>2+</sup> but until now, the exact role of Kv7 channels in cytosolic Ca<sup>2+</sup> dynamics in VSMCs has not been fully elucidated. We utilised microfluorimetry to investigate the impact of Kv7 channel activity on intracellular Ca<sup>2+</sup> levels and electrical activity of rat A7r5 VSMCs and primary human internal mammary artery (IMA) SMCs. Both, direct (XE991) and G protein coupled receptor mediated (vasopressin, AVP) Kv7 channel inhibition induced robust Ca<sup>2+</sup> oscillations, which were significantly reduced in the presence of Kv7 channel activator, retigabine, L-type Ca<sup>2+</sup> channel inhibitor, nifedipine, or T-type Ca<sup>2+</sup> channel inhibitor, NNC 55-0396, in A7r5 cells. Membrane potential measured using FluoVolt exhibited a slow depolarisation followed by a burst of sharp spikes in response to XE991; spikes were temporally correlated with Ca<sup>2+</sup> oscillations. Phospholipase C inhibitor (edelfosine) reduced AVP-induced, but not XE991-induced Ca<sup>2+</sup> oscillations. AVP and XE991 induced a large increase of [Ca<sup>2+</sup>]<sub>i</sub> in human IMA, which was also attenuated with retigabine, nifedipine and NNC 55-0396. RT-PCR, immunohistochemistry and electrophysiology suggested that Kv7.5 was the predominant Kv7 subunit in both rat and human arterial SMCs; CACNA1C (Cav1.2; L-type) and CACNA1 G (Cav3.1; T-type) were the most abundant voltage-gated Ca<sup>2+</sup> channel gene transcripts in both types of VSMCs. This study establishes Kv7 channels as key regulators of Ca<sup>2+</sup> signalling in VSMCs with Kv7.5 playing a dominant role.

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