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AJP - Lung Cellular and Molecular Physiology, Vol 273, Issue 1 80-L85, Copyright © 1997 by American Physiological Society
ARTICLES |
K. A. Jones, A. Hirasaki, D. H. Bremerich, C. Jankowski and D. O. Warner
Department of Anesthesiology, Mayo Clinic, Rochester, Minnesota, USA.
Agonist-induced increases in CA2+ sensitivity are mediated in part by mechanisms that increase phosphorylation of the regulatory myosin light chain (rMLC) at constant cytosolic Ca2+ concentration ([Ca2+]i). The current study tested the hypothesis that halothane inhibits acetylcholine (ACh)-induced potentiation of rMLC phosphorylation in beta-escin-permeabilized canine tracheal smooth muscle. ACh plus GTP significantly potentiated the increase in isometric force and rMLC phosphorylation induced by 0.8 microM free Ca2+. However, whereas the potentiation of isometric force was sustained, the potentiation of rMLC phosphorylation was biphasic, peaking at 0.5 min and then declining by approximately 10 min to a steady-state level significantly above that induced by 0.8 microM free Ca2+ alone. This finding suggests that mechanisms in addition to changes in rMLC phosphorylation may mediate ACh-induced Ca2+ sensitization, as has been reported for vascular smooth muscle. Halothane (0.91 +/- 0.10 mM) significantly inhibited ACh plus GTP-induced potentiation of rMLC phosphorylation and isometric force after 2 (peak rMLC phosphorylation) and 15 (steady-state rMLC phosphorylation) min of stimulation. However, the effect of halothane on the potentiation of isometric force was significantly less than that expected from its effect on rMLC phosphorylation (i.e., halothane changed the relationship between rMLC phosphorylation and isometric force). These results demonstrate that halothane inhibits the ACh-induced increase in Ca2+ sensitivity by inhibiting the membrane receptor-coupled mechanisms that increase rMLC phosphorylation at constant submaximal [Ca2+]i. Possible additional effects of halothane on rMLC phosphorylation-independent mechanisms cannot be ruled out.
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