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Possible role of Ca2(+)-independent protein kinase C isozyme, nPKC epsilon, in thyrotropin-releasing hormone-stimulated signal transduction: differential down-regulation of nPKC epsilon in GH4C1 cells
Authors:Y Akita  S Ohno  Y Yajima  K Suzuki
Affiliation:Department of Molecular Biology, Tokyo Metropolitan Institute of Medical Science, Japan.
Abstract:Protein kinase C (PKC) molecular species of GH4C1 cells were analyzed after separation by hydroxyapatite column chromatography. A novel Ca2(+)-independent PKC, nPKC epsilon, was identified together with two conventional Ca2(+)-dependent PKCs, PKC alpha and beta II by analysis of kinase and phorbol ester-binding activities, immunoblotting using isozyme-specific antibodies, and Northern blotting. These PKCs are down-regulated differently when cells are stimulated by outer stimuli; phorbol esters deplete PKC beta II and nPKC epsilon from the cells more rapidly than PKC alpha, whereas thyrotropin-releasing hormone (TRH) at 200 nM depletes nPKC epsilon exclusively with a time course similar to that induced by phorbol esters. However, translocation of PKC alpha and beta II to the membranes is elicited by both TRH and phorbol esters. These results suggest that TRH and phorbol ester activate PKC alpha and beta II differently but that nPKC epsilon is stimulated similarly by both stimuli. Thus, in GH4C1 cells, Ca2(+)-independent nPKC epsilon may play a crucial role distinct from that mediated by Ca2(+)-dependent PKC alpha and beta II in a cellular response elicited by both TRH and phorbol esters.
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