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AJ McLean, P du Souich, KW Barron and AH Briggs
A study was made of the effects of hydralazine on K+ contractures in rabbit aortic strips. Measurements were made of effects on tension generation, Ca++ accumulation measured using 45Ca++ (lanthanum method) and 45Ca++ efflux. Hydralazine relaxed established K+ contractures and inhibited tension development when tissue exposure to hydralazine preceded K+ depolarization. Both the threshold and the maximum tension responses of strips to Ca++ (K+-depolarized tissues) were altered by hydralazine in a dose-dependent manner. The Ca++ uptake associated with K+ depolarization was inhibited by relaxant doses of hydralazine; however, hydralazine did not significantly affect the rate of 45Ca++ efflux. Hydralazine also raised the threshold to the inhibitory (relaxant) effects of higher (greater than 2.5 mM) bath concentrations of Ca++. It is suggested that hydralazine inhibits K+ contractures in aortic strips by interference with the entry of Ca++ into the cell, reflecting an effect of hydralazine at the cell surface membrane.
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  C. Liu, G. M. Balanos, M. Fatemian, T. G. Smith, K. L. Dorrington, and P. A. Robbins Effects of hydralazine on the pulmonary vasculature and respiratory control in humans Exp Physiol, January 1, 2008; 93(1): 104 - 114. [Abstract] [Full Text] [PDF]
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