Differential Responses of Protein Kinase C Substrates (MARCKS, Neuromodulin, and Neurogranin) Phosphorylation to Calmodulin and S100

Phosphorylation of three physiological substrates of protein kinase C (PKC), MARCKS, neuromodulin (Nm), and neurogranin (Ng), was analyzed to determine their relative efficacy as substrates of PKC α, β, and γ and sensitivities to inhibition by calmodulin (CaM) and S100. Comparison of the Vmax/Km of the phosphorylation of each individual substrate indicated the order of efficacy as PKC substrate was MARCKS > Nm > Ng. Phosphorylation of these proteins in a mixture by PKC β and γ was indistinguishable from that when each individual substrate was phosphorylated by these two isozymes. In contrast, the rates of PKC α-catalyzed phosphorylation of Nm and Ng in a mixture also containing MARCKS were significantly reduced as compared to that when Nm or Ng was individually phosphorylated by this isozyme. When these substrates were present in a mixture, both CaM and S100 inhibited the PKC-catalyzed phosphorylation of MARCKS to a higher degree than that of Nm or Ng. Protease-activated catalytic fragment of PKC (PKM) was used to determine the effects of Ca2+ and phospholipid on the CaM and S100-mediated inhibition of PKC substrate phosphorylation. CaM and S100 inhibited the PKM-catalyzed phosphorylation of MARCKS only in the presence of Ca2+ and addition of phosphatidylserine (PS)/dioleoylglycerol (DG) did not influence the inhibitory effect. Phosphorylation of Nm or Ng by PKM was inhibited by CaM to a higher degree in the absence than in the presence of Ca2+. S100 was ineffective in inhibiting the phosphorylation of Nm and Ng without Ca2+ and only poorly effective in the presence of Ca2+. The CaM-mediated inhibition of Nm or Ng phosphorylation by PKM was also not affected by PS/DG either with or without Ca2+. The results presented here demonstrate that MARCKS is a preferred substrate of PKC and its phosphorylation by PKC is most sensitive to inhibition by regulatory proteins such as CaM and S100.