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  • Title: Phosphatase-mediated modulation of actin-myosin interaction in bovine aortic actomyosin and skinned porcine carotid artery.
    Author: Bialojan C, Rüegg JC, Di Salvo J.
    Journal: Proc Soc Exp Biol Med; 1985 Jan; 178(1):36-45. PubMed ID: 2981422.
    Abstract:
    Since the Ca2+-regulatory mechanism for actin-myosin interaction in smooth muscle involves phosphorylation of the 20,000-Da myosin light chains, it was hypothesized that such interaction should be influenced by myosin phosphatase. Accordingly, we studied the effects of an aortic myosin light-chain phosphatase on Ca1+-dependent actin-myosin interaction in detergent-skinned porcine carotid artery and bovine aortic native actomyosin. In skinned preparations, the aortic phosphatase (16 U/ml) markedly inhibited the rate of isometric contraction in low Ca2+ (6.8 X 10(-7) M) and responsiveness to Ca2+ (force attained with 6.8 X 10(-7) Ca2+/force attained with 1.6 X 10(-6) M Ca2+), whereas relaxation was accelerated. Ca2+-dependent actomyosin ATPase activity and phosphorylation of the light chains were significantly and progressively depressed in the presence of increasing concentrations of phosphatase (0.1-0.9 U/ml). The concentration of Ca2+ (1.1 X 10(-6) M) required for half-maximal activation of either ATPase activity or light-chain phosphorylation increased by 70% in the presence of 0.1 U phosphatase/ml. Neither the maximal rate of Ca2+-sensitive ATP hydrolysis (39 +/- 0.8 nmole/min/mg actomyosin) nor the extent of phosphorylation (0.68 +/- 0.05 mole PO4/mole light chain) was altered at greater than 5 X 10(-6) M Ca2+. ATPase activity was correlated to light-chain phosphorylation under diverse conditions including the presence or absence of 1 microM calmodulin, different concentrations of phosphatase (0-0.9 U/ml), and different concentrations of Ca2+ (10(-8) to 1.25 X 10(-5) M). However, significant phosphorylation was present (20-25% of maximum) in the absence of Ca2+-dependent ATPase activity and only 15% of the maximal rate of ATP hydrolysis was expressed until phosphorylation attained 50% of its maximal value. These findings are consistent with the ordered model of myosin phosphorylation suggested by A. Persechini and D. J. Hartshorne [Science (Washington, DC), 213:1383-285, 1961] (36). They also suggest that myosin phosphatase may participate in modulating actin-myosin interactions in vascular smooth muscle.
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