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pubmed:abstractText |
TRK-100, a stable analogue of prostaglandin I2 (PGI2), relaxed isolated arteries of the dog precontracted with PGF2 alpha or K+; the relaxation was in the order of mesenteric and renal greater than coronary and femoral greater than basilar and middle cerebral arteries. The relaxation by TRK-100 was not affected by treatment with atropine, propranolol, cimetidine, aminophylline, and indomethacin, but was suppressed by diphloretin phosphate, a prostaglandin antagonist. Treatment with TRK-100 attenuated the contraction induced by PGF2 alpha and Ca2+ in mesenteric and basilar arteries previously exposed to Ca2+-free medium, but did not significantly alter the contractile response to Ca2+ in the arteries exposed to Ca2+-free medium and depolarized by excess K+. TRK-100 and nitroglycerin relaxed isolated mesenteric arteries to a similar extent; however, when continuously infused into mesenteric arteries in anaesthetized dogs, TRK-100 produced greater vasodilatation than nitroglycerin. It is concluded that TRK-100 relaxes dog mesenteric and renal arteries more than cerebral arteries; the relaxation appears to derive from interference with the release of Ca2+ from intracellular stores and with the transmembrane Ca2+ influx through a receptor-operated channel. TRK-100 may vasodilate large and small mesenteric arteries and resistance vessels to a similar extent, whereas nitroglycerin preferentially dilates the large artery.
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