The Regulation of Skeletal Muscle Phosphorylase Kinase by Ca2+

Charles O Brostrom,Felix L Hunkeler,Edwin G Krebs

doi:10.1016/s0021-9258(19)77175-0

Charles O Brostrom, Felix L Hunkeler + Show 1 more

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https://doi.org/10.1016/s0021-9258(19)77175-0

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Abstract

Abstract The interaction between highly purified rabbit muscle phosphorylase kinase and Ca2+ has been investigated and this metal has been shown to be necessary for enzyme activity. Utilizing calcium-free reagents, apparent Km values for Ca2+ were determined for the activated kinase (2 x 10-7 m at pH 8.2, 5 x 10-7 m at pH 6.8) and for the nonactivated kinase (3 x 10-6 m at pH 8.2, indeterminate at pH 6.8). Direct binding of Ca2+ to phosphorylase kinase was studied by the method of gel filtration equilibrium using 45Ca and an approximate minimal molar binding weight of 55,000 g was assigned. The dissociation constants of the various Ca2+-kinase complexes were in the same range as the above listed Km values. Sr2+ and Ba2+ were found to substitute for Ca2+ in the phosphorylase kinase reaction; the enzyme-bound Ca2+ was totally exchangeable with Sr2+. A freshly isolated fraction of sarcoplasmic reticulum from rabbit skeletal muscle completely inhibited nonactivated phosphorylase kinase at pH 7.6; this inhibition was reversed by Ca2+. The activated kinase was inhibited 80% under the same conditions. A model system is proposed for the regulation of skeletal muscle phosphorylase kinase by Ca2+ in vivo, and the consequent linking of the process of glycogenolysis to that of muscle contraction.

Highlights

The interaction between highly purified rabbit muscle phosphorylasekinase and CaZf has been investigated and this metal has been shown to be necessaryfor enzyme activity
Since phosphorylase kinase is a key enzyme involved cle completely inhibited nonactivated phosphorylasekinase in the control of glycogenolysis, this process would be at pH 7.6; this inhibition was reversed by Cazf
The activity sequent linking of the process of glycogenolysis to that of of the kinase is shown to depend on this interaction

Summary

Introduction

The interaction between highly purified rabbit muscle phosphorylasekinase and CaZf has been investigated and this metal has been shown to be necessaryfor enzyme activity. Utilizing caldum-free reagents, apparent Km values for Ca2f were determined for the activated kinase (2 x 10’ M at pH 8.2, 5 x 10e7M at pH 6.8) and for the nonactivated kinase (3 X lob M at pH 8.2, indeterminate at pH 6.8). Necessary to attain half-maximal phosphorylase kinase activity. Since phosphorylase kinase is a key enzyme involved cle completely inhibited nonactivated phosphorylasekinase in the control of glycogenolysis, this process would be at pH 7.6; this inhibition was reversed by Cazf. The ac- effectively coupled to the process of muscle contraction This tivated kinase was inhibited 80% under the sameconditions. The activity sequent linking of the process of glycogenolysis to that of of the kinase is shown to depend on this interaction

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