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蛋白激酶C(PKC)激活环的磷酸化在受体介导的PKC转位过程中起重要作用。

Phosphorylation of PKC activation loop plays an important role in receptor-mediated translocation of PKC.

作者信息

Seki Takahiro, Matsubayashi Hiroaki, Amano Taku, Shirai Yasuhito, Saito Naoaki, Sakai Norio

机构信息

Department of Molecular and Pharmacological Neuroscience, Graduate School of Biomedical Sciences, Hiroshima University, Hiroshima 734-8551, Japan.

出版信息

Genes Cells. 2005 Mar;10(3):225-39. doi: 10.1111/j.1365-2443.2005.00830.x.

Abstract

Protein kinase C (PKC) is translocated to various cellular regions in a subtype and stimulation-dependent manner. Thereafter, the activated PKC phosphorylates its substrate and causes subsequent cellular responses (PKC targeting). The 3-phosphoinositide-dependent protein kinase-1 (PDK1) has an essential role in the maturation of PKC by phosphorylating a threonine residue in the PKC activation loop. To elucidate the role of PDK1 in PKC targeting, we expressed mutant gamma- or delta-PKC fused with GFP (gamma- or delta-PKC-ALM (activation loop mutant)-GFP), whose threonine residue in the activation loop was replaced with alanine, and compared their P2Y receptor-mediated translocation with wild-type PKC-GFP in CHO cells. ATP (1 mm) induced the transient translocation of wild-type gamma- or delta-PKC-GFP from cytoplasm to plasma membrane and following retranslocation from membrane to the cytoplasm. gamma- or delta-PKC-ALM-GFP was also translocated to plasma membrane, which was, however, retained at the membrane for a longer period than wild type. Similar results were observed in kinase-negative PKC mutants, indicating that the phosphorylation by PDK1 affects the retranslocation step of PKC by regulating the kinase activity. The simultaneous monitoring of [Ca2+]i and diacylglycerol (DG) levels with the translocation of PKC demonstrated that PKC-ALM induced the prolonged accumulation of DG, resulting in the prolonged retention of PKC-ALM at the plasma membrane. It is possible that PKC-ALM with decreased kinase activity could delay the conversion of DG at the plasma membrane. Our present study suggests that the activation loop phosphorylation plays an important role in receptor-mediated PKC targeting.

摘要

蛋白激酶C(PKC)以亚型和刺激依赖的方式转运至细胞的不同区域。此后,活化的PKC使其底物磷酸化并引发后续的细胞反应(PKC靶向)。3-磷酸肌醇依赖性蛋白激酶-1(PDK1)通过磷酸化PKC激活环中的苏氨酸残基,在PKC的成熟过程中发挥重要作用。为了阐明PDK1在PKC靶向中的作用,我们表达了与绿色荧光蛋白(GFP)融合的突变型γ-或δ-PKC(γ-或δ-PKC-ALM(激活环突变体)-GFP),其激活环中的苏氨酸残基被丙氨酸取代,并在CHO细胞中比较了它们与野生型PKC-GFP的P2Y受体介导的转运。ATP(1 mM)诱导野生型γ-或δ-PKC-GFP从细胞质短暂转运至质膜,随后从膜重新转运至细胞质。γ-或δ-PKC-ALM-GFP也转运至质膜,然而,它在膜上保留的时间比野生型更长。在激酶阴性的PKC突变体中也观察到了类似的结果,表明PDK1的磷酸化通过调节激酶活性影响PKC的重新转运步骤。对PKC转运过程中[Ca2+]i和二酰基甘油(DG)水平的同步监测表明,PKC-ALM诱导了DG的长时间积累,导致PKC-ALM在质膜上的长时间保留。激酶活性降低的PKC-ALM可能会延迟质膜上DG的转化。我们目前的研究表明,激活环磷酸化在受体介导的PKC靶向中起重要作用。

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