KV{alpha}1 channels in murine arterioles: differential cellular expression and regulation of diameter

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K_V $alpha$ 1 channels in murine arterioles: differential cellular expression and regulation of diameter

A. Cheong, A. M. Dedman, S. Z. Xu, and D. J. Beech

School of Biomedical Sciences, University of Leeds, Leeds LS2 9JT, United Kingdom

The primary objectives of this study were to reveal cell-specific expression patterns and functions of voltage-gated K⁺ channel (K_V $alpha$ 1) subunits in precapillary arterioles of the murinecerebral circulation. K_V $alpha$ 1 were detected using peptide-specificantibodies in immunofluorescence and Western blotting assays.K_V1.2 was localized almost exclusively to endothelial cells, whereasK_V1.5 was discretely localized to the nerves and nerve terminalsthat innervate the arterioles. K_V1.5 also localized specificallyto arteriolar nerves in human pial membrane. K_V1.5 was notablefor its absence from smooth muscle cells. K_V1.3, K_V1.4, and K_V1.6were localized to endothelial and smooth muscle cells, althoughK_V1.4 had a low expression level. K_V1.1 was not expressed. Therefore,we show that different cell types of pial arterioles have distinctphysiological expression profiles of K_V $alpha$ 1, conferring the possibilityof differential modulation by extracellular and second messengers.Furthermore, we show recombinant agitoxin-2 and margatoxin arepotent vasoconstrictors, suggesting that K_V $alpha$ 1 subunits have amajor function in determining arteriolar resistance to bloodflow.

K⁺ channel; endothelium; smooth muscle; vascular nerves; cerebral circulation; mouse

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KV1 channels in murine arterioles: differential cellular expression and regulation of diameter

K_V $alpha$ 1 channels in murine arterioles: differential cellular expression and regulation of diameter