Lipid soluble psychotropics inhibit brain PKC-catalyzed phosphorylation of exogenous and endogenous proteins to varying degrees. These drugs were better inhibitors of Ca2+/PL-dependent phosphorylation of histones (H) than that of Ca2+/PL-independent protamine sulfate (PrSO4): antidepressants/antipsychotics displayed IC50 of 0.1 to 0.16 mM towards H and 0.3 to 4.0 mM towards PrSO4 phosphorylation. Sedatives/anesthetics were less efficient inhibitors with much higher IC50 of 1.3 to 40 mM. Phosphorylation of a Ca2+-dependent but PL-independent p80 protein and of a cluster of Ca2+/PL-dependent proteins, p16-20, in brain was also inhibited by the antidepressants/antipsychotics but not by the sedatives/anesthetics. Phorbol ester binding studies revealed that these inhibitors do not compete for DAG binding site(s) on PKC. However, both drug-PL and drug-PKC interactions seem to be relevant in their mechanism of action. Furthermore, our data suggest that the hydrophobic nature of the propanamine side chain or its N-methylated version as well as the tricyclic nucleus influence drug-PKC interaction. Although many of these drugs have other accepted modes of action, modulation of PKC activity in brain, may be yet another aspect to be considered in their mechanism of action.