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Mild Hypercapnia Induces Vasodilation via Adenosine Triphosphate-sensitive K+ Channels in Parenchymal Microvessels of the Rat Cerebral Cortex |
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| Authors: | Nakahata, Katsutoshi M.D. Kinoshita, Hiroyuki M.D., Ph.D.&#x Hirano, Yusei M.D.&#x Kimoto, Yoshiki M.D. Iranami, Hiroshi M.D.&#x Hatano, Yoshio M.D., Ph.D.# |
| Affiliation: | Nakahata, Katsutoshi M.D.*; Kinoshita, Hiroyuki M.D., Ph.D.†; Hirano, Yusei M.D.‡; Kimoto, Yoshiki M.D.§; Iranami, Hiroshi M.D.∥; Hatano, Yoshio M.D., Ph.D.# |
| Abstract: | Background: Carbon dioxide is an important vasodilator of cerebral blood vessels. Cerebral vasodilation mediated by adenosine triphosphate (ATP)-sensitive K+ channels has not been demonstrated in precapillary microvessel levels. Therefore, the current study was designed to examine whether ATP-sensitive K+ channels play a role in vasodilation induced by mild hypercapnia in precapillary arterioles of the rat cerebral cortex. Methods: Brain slices from rat cerebral cortex were prepared and superfused with artificial cerebrospinal fluid, including normal (Pco2 = 40 mmHg; pH = 7.4), hypercapnic (Pco2 = 50 mmHg; pH = 7.3), and hypercapnic normal pH (Pco2 = 50 mmHg; pH = 7.4) solutions. The ID of a cerebral parenchymal arteriole (5-9.5 [mu]m) was monitored using computerized videomicroscopy. Results: During contraction to prostaglandin F2[alpha] (5 x 10-7 m), hypercapnia, but not hypercapnia under normal pH, induced marked vasodilation, which was completely abolished by the selective ATP-sensitive K+ channel antagonist glibenclamide (5 x 10-6 m). However, the selective Ca2+-dependent K+ channel antagonist iberiotoxin (10-7 m) as well as the nitric oxide synthase inhibitor NG-nitro-l-arginine methyl ester (10-4 m) did not alter vasodilation. A selective ATP-sensitive K+ channel opener, levcromakalim (3 x 10-8 to 3 x 10-7 m), induced vasodilation, whereas this vasodilation was abolished by glibenclamide. |
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