CHARACTERIZATION OF A PROTEIN-KINASE C-DELTA (PKC-DELTA) ATP BINDING MUTANT

To investigate the function of protein kinase C (PKC)-delta, we mutate d its ATP binding site by converting the invariant lysine in the catal ytic domain (amino acid 376) to an arginine, Expression vectors contai ning wild type and mutant PKC-delta cDNAs were generated either with o r without an influenza virus hemagglutinin epitope tag. After expressi on in 32D cells by transfection, the PRC-delta ATP binding mutant (PKC -delta K376R) was not able to phosphorylate itself or the PKC-delta ps eudosubstrate region derived substrate, indicating that PKC-delta R376 R was an inactive enzyme, PKC activity was inhibited by 67% in 32D cel ls coexpressing both PKC-delta wild type (PKC-delta WT) and PKC-delta R376R when compared to 32D cells expressing only PKC-delta WT, Mixture of PKC-delta WT and PKC-delta K376R kinase sources in vitro also redu ced the enzymatic activity of PKC-delta WT. These results suggest that PKC-delta K376R competes with PRC-delta WT and inhibits PKC-delta WT phosphorylation of its in vitro substrate. While PKC-delta WT overexpr essed in 32D cells demonstrated 12-O-tetradecanoylphorbol-13-acetate ( TPA)-dependent translocation from the cytosolic to the membrane fracti on, PKC-delta K376R was exclusively localized in the membrane fraction even prior to TPA stimulation. Unlike PKC-delta WT which was phosphor ylated on tyrosine residue(s) only after TPA treatment, PKC-delta K376 R was constitutively phosphorylated on tyrosine residue(s). Although e xposure of PKC-delta WT transfectants to TPA induced 32D monocytic dif ferentiation, the 32D/PKC-delta K376R transfectants were resistant to TPA-induced differentiation. Thus, expression of active PRC-delta is r equired to mediate 32D monocytic differentiation in response to TPA st imulation.