EC:2.7.11.13 - FACTA Search

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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Polarized cell movement is an essential requisite for cancer metastasis; thus, interference with the tumor cell motility machinery would significantly modify its metastatic behavior. Protein kinase C alpha (PKC alpha) has been implicated in the promotion of a migratory cell phenotype. We report that the phorbol ester-induced cell polarization and directional motility in breast carcinoma cells is determined by a 12-amino-acid motif (amino acids 313 to 325) within the PKC alpha V3 hinge domain. This motif is also required for a direct association between PKC alpha and beta 1 integrin. Efficient binding of beta 1 integrin to PKC alpha requires the presence of both NPXY motifs (Cyto-2 and Cyto-3) in the integrin distal cytoplasmic domains. A cell-permeant inhibitor based on the PKC-binding sequence of beta 1 integrin was shown to block both PKC alpha-driven and epidermal growth factor (EGF)-induced chemotaxis. When introduced as a minigene by retroviral transduction into human breast carcinoma cells, this inhibitor caused a striking reduction in chemotaxis towards an EGF gradient. Taken together, these findings identify a direct link between PKC alpha and beta 1 integrin that is critical for directed tumor cell migration. Importantly, our findings outline a new concept as to how carcinoma cell chemotaxis is enhanced and provide a conceptual basis for interfering with tumor cell dissemination.
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PMID:Site-directed perturbation of protein kinase C- integrin interaction blocks carcinoma cell chemotaxis. 1213

Protein kinase C (PKC), a Ca(2+)/phospholipid-dependent protein kinase, is known as a key enzyme in various cellular responses, including apoptosis. However, the functional role of PKC in apoptosis has not been clarified. In this study, we focused on the involvement of PKCdelta in ceramide-induced apoptosis in HeLa cells and examined the importance of spatiotemporal activation of the specific PKC subtype in apoptotic events. Ceramide-induced apoptosis was inhibited by the PKCdelta-specific inhibitor rottlerin and also was blocked by knockdown of endogenous PKCdelta expression using small interfering RNA. Ceramide induced the translocation of PKCdelta to the Golgi complex and the concomitant activation of PKCdelta via phosphorylation of Tyr(311) and Tyr(332) in the hinge region of the enzyme. Unphosphorylatable PKCdelta (mutants Y311F and Y332F) could translocate to the Golgi complex in response to ceramide, suggesting that tyrosine phosphorylation is not necessary for translocation. However, ceramide failed to activate PKCdelta lacking the C1B domain, which did not translocate to the Golgi complex, but could be activated by tyrosine phosphorylation. These findings suggest that ceramide translocates PKCdelta to the Golgi complex and that PKCdelta is activated by tyrosine phosphorylation in the compartment. Furthermore, we utilized species-specific knockdown of PKCdelta by small interfering RNA to study the significance of phosphorylation of Tyr(311) and Tyr(332) in PKCdelta for ceramide-induced apoptosis and found that phosphorylation of Tyr(311) and Tyr(332) is indispensable for ceramide-induced apoptosis. We demonstrate here that the targeting mechanism of PKCdelta, dual regulation of both its activation and translocation to the Golgi complex, is critical for the ceramide-induced apoptotic event.
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PMID:Ceramide-induced apoptosis by translocation, phosphorylation, and activation of protein kinase Cdelta in the Golgi complex. 1471 67

PKCdelta (protein kinase Cdelta) is a serine/threonine kinase that plays a key role in growth regulation and tissue remodelling. Traditional models of PKC activation have focused on lipid cofactors and anchoring proteins that localize the active conformation of PKCdelta to membranes, in close proximity with its target substrates. However, recent studies identify a distinct mode for PKCdelta activation involving tyrosine phosphorylation by Src family kinases. The tyrosine-phosphorylated form of PKCdelta (which accumulates in the soluble fraction of cells exposed to oxidant stress) displays lipid-independent kinase activity and is uniquely positioned to phosphorylate target substrates throughout the cell (not just on lipid membranes). This review summarizes (1) recent progress towards understanding structure-activity relationships for PKCdelta, with a particular focus on the stimuli that induce (and the distinct functional consequences that result from) tyrosine phosphorylation events in PKCdelta's regulatory, hinge and catalytic domains; (2) current concepts regarding the role of tyrosine phosphorylation as a mechanism to regulate PKCdelta localization and actions in mitochondrial and nuclear compartments; and (3) recent literature delineating distinct roles for PKCdelta (relative to other PKC isoforms) in transcriptional regulation, cell cycle progression and programmed cell death (including studies in PKCdelta-/- mice that implicate PKCdelta in immune function and cardiovascular remodelling). Collectively, these studies argue that the conventional model for PKCdelta activation must be broadened to allow for stimulus-specific differences in PKCdelta signalling during growth factor stimulation and oxidant stress.
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PMID:Distinctive activation mechanisms and functions for protein kinase Cdelta. 1549 Dec 80

Keratinocyte apoptosis induced by UV radiation is a major protective mechanism from skin photocarcinogenesis. The induction of apoptosis by UV radiation, as well as a variety of genotoxic stimuli, involves the activation of PKC-delta by caspase-3-mediated cleavage in its hinge region, thus generating a constitutively active catalytic fragment. To determine the role of PKC-delta cleavage in UV apoptosis signaling, we introduced a caspase-resistant PKC-delta mutant (D330A) into human keratinocytes by retrovirus transduction. Overexpression of PKC-delta(D330A) protected keratinocytes from UV-induced apoptosis and enhanced long-term survival. PKC-delta(D330A) partially prevented the release of cytochrome c from the mitochondria and the loss of Mcl-1, a key antiapoptotic protein downregulated during UV apoptosis. Thus, the cleavage and activation of PKC-delta are critical components of UV-induced apoptosis in human keratinocytes, and the inactivation of PKC-delta can promote the survival of keratinocytes exposed to UV radiation.
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PMID:A caspase-resistant mutant of PKC-delta protects keratinocytes from UV-induced apoptosis. 1561 68

Peroxisome proliferator-activated receptor alpha (PPARalpha) is a nuclear receptor activated by fatty acids, hypolipidemic drugs, and peroxisome proliferators (PPs). Like other nuclear receptors, PPARalpha is a phosphoprotein whose activity is affected by a variety of growth factor signaling cascades. In this study, the effects of protein kinase C (PKC) on PPARalpha activity were explored. In vivo phosphorylation studies in COS-1 cells transfected with murine PPARalpha showed that the level of phosphorylated PPARalpha is increased by treatment with the PP Wy-14,643 as well as the PKC activator phorbol myristol acetate (PMA). In addition, inhibitors of PKC decreased Wy-14,643-induced PPARalpha activity in a variety of reporter assays. Overexpressing PKCalpha, -beta, -delta, and -zeta affected both basal and Wy-14,643-induced PPARalpha activity. Four consensus PKC phosphorylation sites are contained within the DNA binding (C-domain) and hinge (D-domain) regions of rat PPARalpha (S110, T129, S142, and S179), and their contribution to receptor function was examined. Mutation of T129 or S179 to alanine prevented heterodimerization of PPARalpha with RXRalpha, lowered the level of phosphorylation by PKCalpha and PKCdelta in vitro, and lowered the level of phosphorylation of transfected PPARalpha in transfected cells. In addition, the T129A mutation prevented PPARalpha from binding DNA in an electromobility shift assay. Together, these studies demonstrate a direct role for PKC in the regulation of PPARalpha, and suggest several PKCs can regulate PPARalpha activity through multiple phosphorylation sites.
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PMID:Regulation of peroxisome proliferator-activated receptor alpha by protein kinase C. 1604 8

Calpains are a family of calcium-dependent cysteine-proteases involved in cytoskeleton remodelling and muscle differentiation. In a recent study, we observed the presence of calpain 1 in the muscle contractile apparatus and specifically in the N1- and N2-lines. This calpain isoform was found to be involved in the degradation of muscle fibres via proteolysis of key proteins in Z-disk and costameric junctions. The goal of this study was to determine whether gamma-filamin--a specific muscle isoform of the filamin family--is a calpain 1 substrate and to characterise this interaction. Gamma-filamin is a major muscle architectural protein located in the Z-line and under the sarcolemmal membrane. This protein is a component of the chain binding the sarcolemma to the sarcomeric structure. In this study, we found that gamma-filamin formed a stable complex in vitro and in cells with calpain 1 in the absence of calcium stimulation. We also located the binding domains in the C-terminus of gamma-filamin with a cleavage site between serine 2626 and serine 2627 in the hinge 2 region. The catalytic (80 kDa) and regulatory (28 kDa) subunits of calpain 1 are both involved in high affinity binding at gamma-filamin. Moreover, we showed that phosphorylation of the filamin C-terminus domain by PKC alpha protected gamma-filamin against proteolysis by calpain 1 in COS cells. Stimulation of PKC activity in myotubes, prevented gamma-filamin proteolysis by calpain and resulted in an increase in myotube adhesion.
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PMID:Calpain 1-gamma filamin interaction in muscle cells: a possible in situ regulation by PKC-alpha. 1629 52

Recently, we provided evidence that PKCalpha depletion in monocytes/macrophages contributes to cellular desensitization during sepsis. We demonstrate that peroxisome proliferator-activated receptor gamma (PPARgamma) agonists dose dependently block PKCalpha depletion in response to the diacylglycerol homologue PMA in RAW 264.7 and human monocyte-derived macrophages. In these cells, we observed PPARgamma-dependent inhibition of nuclear factor-kappaB (NF-kappaB) activation and TNF-alpha expression in response to PMA. Elucidating the underlying mechanism, we found PPARgamma1 expression not only in the nucleus but also in the cytoplasm. Activation of PPARgamma1 wild type, but not an agonist-binding mutant of PPARgamma1, attenuated PMA-mediated PKCalpha cytosol to membrane translocation. Coimmunoprecipitation assays pointed to a protein-protein interaction of PKCalpha and PPARgamma1, which was further substantiated using a mammalian two-hybrid system. Applying PPARgamma1 mutation and deletion constructs, we identified the hinge helix 1 domain of PPARgamma1 that is responsible for PKCalpha binding. Therefore, we conclude that PPARgamma1-dependent inhibition of PKCalpha translocation implies a new model of macrophage desensitization.
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PMID:PPARgamma1 attenuates cytosol to membrane translocation of PKCalpha to desensitize monocytes/macrophages. 1732 8

Protein kinase C delta (PKCdelta plays a major role in the regulation of cell apoptosis and survival. PKCdelta is cleaved by caspase 3 to generate a constitutively active catalytic domain that mediates both its apoptotic and anti-apoptotic effects. The caspase cleavage site of PKCdelta in the hinge region is flanked by the two tyrosine residues, Y311 and Y332. Here, we examined the role of the phosphorylation of tyrosines 311 and 332 in the cleavage and apoptotic function of PKCdelta using the apoptotic stimuli, TRAIL and cisplatin. Tyrosine 332 was constitutively phosphorylated in the A172 and HeLa cells and was further phosphorylated by TRAIL and cisplatin. This phosphorylation was inhibited by the Src inhibitors, PP2 and SU6656, and by silencing of Src. Treatment of the A172 and HeLa cells with TRAIL induced cleavage of the WT PKCdelta and of the PKCdeltaY311F mutant, whereas a lower level of cleavage was observed in the PKCdeltaY332F mutant. Similarly, a smaller degree of cleavage of the PKCdeltaY332 mutant was observed in LNZ308 cells treated with cisplatin. Mutation of Y332F affected the apoptotic function of PKCdelta; overexpression of the PKCdeltaY332 mutant increased the apoptotic effect of TRAIL, whereas it decreased the apoptotic effect of cisplatin. Inhibition of Src decreased the cleavage of PKCdelta and modified the apoptotic responses of the cells to TRAIL and cisplatin, similar to effect of the PKCdeltaY332F mutant. These results demonstrate that the phosphorylation of tyrosine 332 by Src modulates the cleavage of PKCdelta and the sensitivity of glioma cells to TRAIL and cisplatin.
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PMID:The phosphorylation of tyrosine 332 is necessary for the caspase 3-dependent cleavage of PKCdelta and the regulation of cell apoptosis. 1765 31

HuR is predominantly nuclear but following exposure to stress and mitogens, it can translocate to the cytoplasm where it stabilizes target mRNAs and/or modulates their translation. Several phosphorylation sites in a central 'hinge" region of HuR have been reported to affect its nucleocytoplasmic shuttle: phosphorylation by PKC at serine (S)221 and by Cdk1 at S202. Here, we investigated if there are additional putative phosphorylation sites within the HuR hinge region capable of influencing its cytoplasmic abundance. We systematically mutated all seven serine residues within the shuttling hinge domain to the nonphosphorylatable residue alanine (A), S197A, S202A, S221A, S229A, S232A, S241A and S242A. Using HeLa cells as the study system, we found that the HuR(S242A) mutant was more abundant in the cytoplasm in both untreated cells and in cells treated with short-wavelength ultraviolet light or with an inhibitor of Cdk1. Conversely, mutation of S242 to aspartic acid (D), rendered the phosphomimetic HuR(S242D) nuclear under all treatment conditions. S242 mutations did not influence HuR stability, but HuR(S242A) showed increased association with target cyclin A2 and cyclin B1 mRNAs. Accordingly, expression of HuR(S242A) led to increased cyclin mRNA stability and heightened cell proliferation rates. Our findings suggest that HuR phosphorylation at S242 hinders its cytoplasmic localization, its function as a posttranscriptional regulator, and its proliferative influence.
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PMID:Modification at HuR(S242) alters HuR localization and proliferative influence. 1894 43

Protein kinase C (PKC) delta, a member of the novel PKC subfamily, has been shown to have an important role in cell proliferation, differentiation, apoptosis and cell motility. In this study, we investigated the effect of green fluorescent protein (GFP)-PKCdelta and GFP-PKCalpha on cell-cell junctions of Madin-Darby canine kidney (MDCK) cells and found that only GFP-PKCdelta suppressed the homophilic interactions between the ectodomains of E-cadherins, accompanied by a weaker cell-cell adhesion. The kinase-deficient mutant of GFP-PKCdelta retained its localization at cell-cell junctions but failed to suppress the function of E-cadherin. In addition, we demonstrated that the hinge region (residues 280-347) that links the regulatory domain and the catalytic domain of PKCdelta is essential for both its kinase activity and the targeting of cell-cell junctions. A PKCdelta mutant with the deletion of amino acids 280-323 within the hinge region, which is catalytically active but defective in the targeting of cell-cell junctions, failed to suppress the function of E-cadherin. Moreover, expression of GFP-PKCdelta in MDCK cells expedited the detachment of cells from their neighbors and facilitated cell scatter induced by hepatocyte growth factor. By contrast, the GFP-PKCdelta mutants including the kinase-deficient mutant and the truncated mutant lacking residues 280-323 suppressed hepatocyte-growth-factor-induced cell scattering. Finally, siRNA-mediated knockdown of endogenous PKCdelta in MDCK cells was found to delay the onset of cell-cell detachment and cell scattering induced by hepatocyte growth factor. Taken together, our results demonstrate that the catalytic activity of PKCdelta and its localization to cell-cell junctions are necessary for PKCdelta to suppress the function of E-cadherin, which thereby facilitates scattering of epithelial cells in response to extracellular cues.
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PMID:Functional suppression of E-cadherin by protein kinase Cdelta. 1917 68

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