The effect of calmodulin and troponin-C on activities of homogeneous liver phosphoprotein phosphatases

The effect of calmodulin was determined on activities of two homogeneous liver phosphoprotein phosphatases with phosphorylase a and phosphorylated histones as substrates. Calmodulin in the absence or presence of calcium had no effect on the dephosphorylation of phosphorylase a by either phosphatases. However, calmodulin inhibited the dephosphorylation of histones catalyzed by both phosphatases. No difference was found whether the reactions were carried out in the absence or presence of calcium. The effect of calmodulin on histone dephosphorylation was variable depending on (i) the absence or presence of KCl and Mg²⁺, and (ii) the concentration of histone in the reaction mixture. In the presence of KCl and Mg²⁺ at a histone concentration of 0.1 mg/ml, calmodulin inhibited the enzyme activity. At 1 mg/ml histone, lower concentrations of calmodulin activated whereas higher concentrations of calmodulin inhibited the enzyme activity. Similar, but relatively less, effect was observed with troponin-C. In the absence of KCl and Mg²⁺, calmodulin as well as troponin-C activated the enzyme activity. The optimal concentration of calmodulin (or troponin-C) was approximately 30–50% of histone concentration in the reaction mixture. Calcium alone or with calmodulin (or troponin-C) had no additional effect on enzyme activities. DNA and RNA, two negatively charged nucleic acids, also showed similar effects on histone dephosphorylation. Depending on whether KCl and Mg²⁺ were absent or present in the reaction mixtures, both nucleic acids either activated or inhibited the dephosphorylation of histones.