Structural requirements for localization and activation of protein kinase C μ (PKCμ) at the Golgi compartment

Abstract

We here describe the structural requirements for Golgi localization and a sequential, localization-dependent activation process of protein kinase C (PKC)μ involving auto- and transphosphorylation. The structural basis for Golgi compartment localization was analyzed by confocal microscopy of HeLa cells expressing various PKCμ–green fluorescent protein fusion proteins costained with the Golgi compartment–specific markers p24 and p230. Deletions of either the NH2-terminal hydrophobic or the cysteine region, but not of the pleckstrin homology or the acidic domain, of PKCμ completely abrogated Golgi localization of PKCμ. As an NH2-terminal PKCμ fragment was colocalized with p24, this region of PKCμ is essential and sufficient to mediate association with Golgi membranes. Fluorescence recovery after photobleaching studies confirmed the constitutive, rapid recruitment of cytosolic PKCμ to, and stable association with, the Golgi compartment independent of activation loop phosphorylation. Kinase activity is not required for Golgi complex targeting, as evident from microscopical and cell fractionation studies with kinase-dead PKCμ found to be exclusively located at intracellular membranes. We propose a sequential activation process of PKCμ, in which Golgi compartment recruitment precedes and is essential for activation loop phoshorylation (serines 738/742) by a transacting kinase, followed by auto- and transphosphorylation of NH2-terminal serine(s) in the regulatory domain. PKCμ activation loop phosphorylation is indispensable for substrate phosphorylation and thus PKCμ function at the Golgi compartment.