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ATP-mediated vasodilatation occurs via activation of inwardly rectifying potassium channels in humans.

The Journal of physiology (2012-07-11)
Anne R Crecelius, Brett S Kirby, Gary J Luckasen, Dennis G Larson, Frank A Dinenno
RESUMEN

Circulating ATP possesses unique vasomotor properties in humans and has been hypothesized to play a role in vascular control under a variety of physiological conditions. However, the primary downstream signalling mechanisms underlying ATP-mediated vasodilatation remain unclear. The purpose of the present experiment was to determine whether ATP-mediated vasodilatation is independent of nitric oxide (NO) and prostaglandin (PG) synthesis and occurs primarily via the activation of Na(+)/K(+)-ATPase and inwardly rectifying potassium (K(IR)) channels in humans. In all protocols, young healthy adults were studied and forearm vascular conductance (FVC) was calculated from forearm blood flow (measured via venous occlusion plethysmography) and intra-arterial blood pressure to quantify local vasodilatation. Vasodilator responses (%FVC) during intra-arterial ATP infusions were unchanged following combined inhibition of NO and PGs (n = 8; P > 0.05) whereas the responses to KCl were greater (P < 0.05). Combined infusion of ouabain (to inhibit Na(+)/K(+)-ATPase) and barium chloride (BaCl(2); to inhibit K(IR) channels) abolished KCl-mediated vasodilatation (n = 6; %FVC = 134 ± 13 vs. 4 ± 5%; P < 0.05), demonstrating effective blockade of direct vascular hyperpolarization. The vasodilator responses to three different doses of ATP were inhibited on average 56 ± 5% (n = 16) following combined ouabain plus BaCl(2) infusion. In follow-up studies, BaCl(2) alone inhibited the vasodilator responses to ATP on average 51 ± 3% (n = 6), which was not different than that observed for combined ouabain plus BaCl(2) administration. Our novel results indicate that the primary mechanism of ATP-mediated vasodilatation is vascular hyperpolarization via activation of K(IR) channels. These observations translate in vitro findings to humans in vivo and may help explain the unique vasomotor properties of intravascular ATP in the human circulation.

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Sigma-Aldrich
Barium chloride dihydrate, ACS reagent, ≥99%
Sigma-Aldrich
Barium chloride dihydrate, ≥99%
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Barium chloride, 99.9% trace metals basis
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Barium chloride, 99.999% trace metals basis
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Barium chloride, AnhydroBeads, −10 mesh, 99.999% trace metals basis
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Barium chloride dihydrate, ≥99.999% trace metals basis
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Barium chloride, AnhydroBeads, −10 mesh, 99.95% trace metals basis