Interaction of hydralazine and hydrazone derivatives with contractile mechanisms in rabbit aortic smooth muscle.

Abstract	The mechanism of action and relative potency of hydralazine (H) and tow hydrazone derivatives were investigated using isolated rabbit aortic strips. H, hydralazine acetone hydrazone (HA) and hydralazine butanone hydrazone (HBH) relaxed established K+ and norepinephrine (NE) contractures, and inhibited the development of contractures to these two agents on preincubation. H, HA and HBH increased the threshold to Ca++ and decreased the maximum tension responses during K+-Ca++-contractures (HA greater than H, P less than .05; HBH greater than H P less than .01). The Ca++-dependent and Ca++-independent components of NE contractures were both inhibited by H, HA and HBH. NE contractures were more sensitive to the effects of H than K+ contractures. These results are consistent with the conclusion that H and hydrazone derivatives produce effects on vascular muscle both by interactions with the fluxes of Ca++ from the extracellular space and effects on release from cell stores. However, other possibilities need to be assessed experimentally.
Authors	A J McLean, K Barron, P du Souich, K D Haegele, J L McNay, O Carrier, A Briggs
Journal	The Journal of pharmacology and experimental therapeutics (J Pharmacol Exp Ther) Vol. 205 Issue 2 Pg. 418-25 (May 1978) ISSN: 0022-3565 [Print] United States
PMID	641837 (Publication Type: Journal Article, Research Support, U.S. Gov't, P.H.S.)
Chemical References	Hydrazones Vasodilator Agents Hydralazine Potassium Calcium Norepinephrine
Topics	Animals Aorta, Thoracic (drug effects) Blood Vessels (drug effects) Calcium (pharmacology) Depression, Chemical Drug Interactions Hydralazine (analogs & derivatives, pharmacology) Hydrazones (pharmacology) In Vitro Techniques Muscle Contraction (drug effects) Muscle, Smooth (drug effects) Norepinephrine (pharmacology) Potassium (pharmacology) Rabbits Vasodilator Agents (pharmacology)

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