A key role for Na+/K+-ATPase in the endothelium-dependent oscillatory activity of mouse small mesenteric arteries

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Abstract

Oscillatory contractile activity is an inherent property of blood vessels. Various cellular mechanisms have been proposed to contribute to oscillatory activity. Mouse small mesenteric arteries display a unique low frequency contractile oscillatory activity (1 cycle every 10-12 min) upon phenylephrine stimulation. Our objective was to identify mechanisms involved in this peculiar oscillatory activity. First-order mesenteric arteries were mounted in tissue baths for isometric force measurement. The oscillatory activity was observed only in vessels with endothelium, but it was not blocked by L-NAME (100 μM) or indomethacin (10 μM), ruling out the participation of nitric oxide and prostacyclin, respectively, in this phenomenon. Oscillatory activity was not observed in vessels contracted with K+ (90 mM) or after stimulation with phenylephrine plus 10 mM K+. Ouabain (1 to 10 μM, an Na +/K+-ATPase inhibitor), but not K+ channel antagonists [tetraethylammonium (100 μM, a nonselective K+ channel blocker), Tram-34 (10 μM, blocker of intermediate conductance K+ channels) or UCL-1684 (0.1 μM, a small conductance K+ channel blocker)], inhibited the oscillatory activity. The contractile activity was also abolished when experiments were performed at 20°C or in K+-free medium. Taken together, these results demonstrate that Na+/K +-ATPase is a potential source of these oscillations. The presence of α-1 and α-2 Na+/K+-ATPase isoforms was confirmed in murine mesenteric arteries by Western blot. Chronic infusion of mice with ouabain did not abolish oscillatory contraction, but up-regulated vascular Na+/K+-ATPase expression and increased blood pressure. Together, these observations suggest that the Na+/K + pump plays a major role in the oscillatory activity of murine small mesenteric arteries.

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Giachini, F. R. C., Carneiro, F. S., Lima, V. V., Carneiro, Z. N., Brands, M. W., Webb, R. C., & Tostes, R. C. (2009). A key role for Na+/K+-ATPase in the endothelium-dependent oscillatory activity of mouse small mesenteric arteries. Brazilian Journal of Medical and Biological Research, 42(11), 1058–1067. https://doi.org/10.1590/S0100-879X2009005000033

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