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British Journal of Pharmacology logoLink to British Journal of Pharmacology
. 1984 Feb;81(2):393–400. doi: 10.1111/j.1476-5381.1984.tb10091.x

Comparative effects of verapamil and sodium nitroprusside on contraction and 45Ca uptake in the smooth muscle of rabbit aorta, rat aorta and guinea-pig taenia coli.

H Karaki, H Nakagawa, N Urakawa
PMCID: PMC1986874  PMID: 6322897

Abstract

The effects of verapamil and sodium nitroprusside on muscle tension and 45Ca uptake activated in different ways were compared in rabbit aorta, rat aorta and guinea-pig taenia coli. In rabbit aorta, K-induced contraction was specifically inhibited by verapamil and noradrenaline-induced contraction by sodium nitroprusside. In rat aorta, both K-induced and noradrenaline-induced contractions were inhibited by verapamil or by sodium nitroprusside also. In taenia, both K- and histamine-induced sustained contractions were inhibited by verapamil but not by sodium nitroprusside. The effect of verapamil was competitively antagonized by external Ca, while that of sodium nitroprusside was not. High K, noradrenaline and histamine increased the rate of 45Ca uptake in aortae and taenia. In rabbit aorta the increment in response to high K was specifically inhibited by verapamil and the increment induced by noradrenaline was specifically inhibited by sodium nitroprusside. In rat aorta, increments induced by both high K and noradrenaline were inhibited by verapamil and by sodium nitroprusside. In taenia, the increments induced by high K and by histamine were inhibited by verapamil but not by sodium nitroprusside. These results suggest different characteristics of Ca entry systems in these smooth muscles. In rabbit aorta, there seem to be two Ca channels, one of which is activated by high K and inhibited by verapamil, while the other is activated by noradrenaline and inhibited by sodium nitroprusside. In rat aorta, both K- and noradrenaline-activated Ca pathways are sensitive to both verapamil and sodium nitroprusside whereas, in taenia, both K- and histamine-activated Ca pathways are sensitive only to verapamil.

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Selected References

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