Rational design of a selective antagonist of ε protein kinase C derived from the selective allosteric agonist, pseudo-RACK peptide

Abstract

We have previously shown that domains involved in binding of protein kinase C (PKC) isozymes to their respective anchoring proteins (RACKs) and short peptides derived from these domains are PKC isozyme-selective antagonists. We also identified PKC isozyme-selective agonists, named ψRACK peptides, derived from a sequence within each PKC with high homology to its respective RACK. We noted that all the ψRACK sequences within each PKC isozyme have at least one non-homologous amino acid difference from their corresponding RACK that constitutes a charge change. Based on this information, we have devised here a new approach to design an isozyme-selective PKC antagonist, derived from the ψRACK sequence. We focused on εPKC ψRACK peptide, where the pseudo-εRACK sequence (ψεRACK; H D APIGYD; corresponding to εPKC85-92) is different in charge from the homologous RACK-derived sequence (N N VALGYD; corresponding to εRACK285-292) in the second amino acid. Here we show that changing the charge of the ψεRACK peptide through a substitution of only one amino acid (aspartate to asparagine) resulted in a peptide with an opposite activity on the same cell function and a substitution for aspartate with an alanine resulted in an inactive peptide. These data support our hypothesis regarding the mechanism by which pseudo-RACK peptide activates PKC in heart cells and suggest that this approach is applicable to other signaling proteins with inducible protein–protein interactions.