Protein kinase C isoforms in muscle cells and their regulation by phorbol ester and calpain

Abstract Objectives were to identify the PKC isoforms in cultured muscle cells, to examine roles of Ca 2+ -dependent proteinases (calpains) in processing of various muscle PKC isozymes and to obtain a mechanistic description of the processing of PKCs by examining the temporal relationships between phorbol ester-dependent translocation of muscle PKCs and calpains between cytosolic and membrane compartments. Using six isoform (α, β, γ, σ, ϵ, ζ )-specific polyclonal antibodies, PKC α, σ and ζ were detected in rat skeletal muscle and in L8 myoblasts and myotubes. PKC α and ζ were primarily localized in the cytosolic fraction of L8 myotubes whereas PKC σ was more abundant in the membrane fraction. Phorbol ester (TPA) caused rapid depletion of myotube PKC α and PKC σ isoforms from the cytosolic compartment and rapid appearance of these isoforms in the membrane fraction. However, long-term exposure of myotubes to TPA eventually caused down-regulation of PKCs in the membrane compartment. Down-regulation of PKCs in the membrane fraction was partially blocked by calpain inhibitor II. However, the rapid TPA-dependent cytosolic depletion of PKCs was unaffected by calpain inhibitor. This suggests that calpains may be responsible for membrane-associated down-regulation of PKCs but not for cytosolic depletion. In the final study we assessed the effects of phorbol ester on compartmentation of m-calpain with PKCs in muscle cells. Like the PKCs, TPA caused rapid association of m-calpain with the membrane fraction followed by down-regulation. This demonstrates that phorbol esters cause translocation of both PKCs and calpains to membranes where processing of PKCs may occur via the limited proteolysis exerted by calpains.