Inhibition of the ATP-Dependent Interaction of Actin and Myosin by the Catalytic Domain of the Myosin Light Chain Kinase of Smooth Muscle: Possible Involvement in Smooth Muscle Relaxation

Myosin light chain kinase (MLCK) phosphorylates the light chain of smooth muscle myosin enabling its interaction with actin. This interaction initiates smooth muscle contraction. MLCK has another role that is not attributable to its phosphorylating activity, i.e., it inhibits the ATP-dependent movem...

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Veröffentlicht in:Journal of biochemistry (Tokyo) 1999-03, Vol.125 (3), p.619-626
Hauptverfasser: Okagaki, Tsuyoshi, Hayakawa, Koichi, Samizo, Koichi, Kohama, Kazuhiro
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Sprache:eng
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Zusammenfassung:Myosin light chain kinase (MLCK) phosphorylates the light chain of smooth muscle myosin enabling its interaction with actin. This interaction initiates smooth muscle contraction. MLCK has another role that is not attributable to its phosphorylating activity, i.e., it inhibits the ATP-dependent movement of actin filaments on a glass surface coated with phosphorylated myosin. To analyze the inhibitory effect of MLCK, the catalytic domain of MLCK was obtained with or without the regulatory sequence adjacent to the C-terminal of the domain, and the inhibitory effect of the domain was examined by the movement of actin filaments. All the domains work so as to inhibit actin filament movement whether or not the regulatory sequence is included. When the domain includes the regulatory sequence, calmodulin in the presence of calcium abolishes the inhibition. Since the phosphorylation reaction is not involved in regulating the movement by MLCK, and a catalytic fragment that shows no kinase activity also inhibits movement, the kinase activity is not related to inhibition. Higher concentrations of MLCK inhibit the binding of actin filaments to myosin-coated surfaces as well as their movement. We discuss the dual roles of the domain, the phosphorylation of myosin that allows myosin to cross-bridge with actin and a novel function that breaks cross-bridging.
ISSN:0021-924X
DOI:10.1093/oxfordjournals.jbchem.a022328