EC:2.7.11.13 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Renal nephron segments are heterogeneous, and receptors for endothelin (ET)-1, ET-3, Angiotensin II (AII), epidermal growth factor (EGF), and insulin-like growth factor I distribute differently along the nephron segments. Recently, growth factors and vasoactive substances are reported to stimulate mitogen-activated protein kinase (MAP-K). In this study, we showed that mRNA and proteins of MEK-K, Raf-1-K, MAPK-K, MAP-K (p42 and p44), and S6-K are expressed ubiquitously in intact nephron segment. We demonstrated that four tiers of a cascade composed of the Raf-1-K, MAP-K, MAP-K, and S6-K are stimulated by ET-1 and ET-3 in rat intact glomeruli (Glm) via primarily B-type ET receptors and PKC. The stimulatory effect of EGF and IGF-I to MAP-K activity is inhibited by a tyrosine kinase inhibitor in Glm. IGF-I significantly stimulates MAP-K activity and EGF and All moderately stimulate MAP-K activity in the proximal convoluted tubule (PCT). EGF significantly increased MAP-K cascades and ET-1 and ET-3 slightly increased MAP-K cascades in the medullary thick ascending limb (MTAL). EGF significantly stimulated MAP-K cascades, and ET-1 and ET-3 moderately stimulate MAP-K cascades in the outer medullary collecting duct (OMCD) and the inner medullary collecting duct (IMCD). MAPK-K and S6-K are similarly stimulated by these agonists in each segment. This study shows that MAP-K cascades are expressed in every nephron segment. ET-1, ET-3, All, EGF, and IGF-I stimulate MAP-K cascades heterogeneously along the nephron segment. It was concluded that MAP-K cascades play an important role in the regulation of renal function.
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PMID:Presence and regulation of Raf-1-K (Kinase), MAPK-K, MAP-K, and S6-K in rat nephron segments. 874 82

Simian virus 40 (SV40) binding to growth-arrested cells activated an intracellular signalling pathway that induced the up-regulation of the primary response genes c-myc, c-jun and c-sis within 30 min and of JE within 90 min. The up-regulation of the primary response genes occurred in the presence of cycloheximide and when UV-inactivated SV40 was adsorbed to cells. SV40 binding did not activate Raf or mitogen-activated protein kinase (MAP/ERK1), or mobilize intracellular Ca2+. The SV40-induced up-regulation of c-myc and c-jun was blocked by the tyrosine kinase inhibitor, genistein, and by the protein kinase C (PKC) inhibitor, calphostin C, but not by expression of the MAP kinase-specific phosphatase, MKP-1. These results suggest that the SV40-induced signalling pathway includes the activities of a tyrosine kinase and a Ca(2+)-independent isoform of PKC, but not of Raf or MAP kinase. Finally, SV40 infectious entry into cells was specifically and reversibly blocked by genistein.
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PMID:Extracellular simian virus 40 induces an ERK/MAP kinase-independent signalling pathway that activates primary response genes and promotes virus entry. 881 Oct 17

Although the ability of growth hormone (GH) to stimulate body growth and regulate metabolism has been recognized for many years, only recently has insight been gained into the molecular mechanisms by which binding of GH to its receptor (GHR) elicits its diverse effects. This review provides an overview of what is currently known about the molecular mechanisms of GH action. The model presented is one in which GH binding to two GHRs causes dimerization of GHR, activation of the GHR-associated JAK2 tyrosine kinase, and tyrosyl phosphorylation of both JAK2 and GHR. These events recruit and/or activate a variety of signaling molecules, including MAP kinases, insulin receptor substrates, phosphatidylinositol 3' phosphate kinase, diacylglycerol, protein kinase C, intracellular calcium, and Stat transcription factors. These signaling molecules contribute to the GH-induced changes in enzymatic activity, transport function, and gene expression that ultimately culminate in changes in growth and metabolism.
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PMID:Molecular mechanism of growth hormone action. 881 91

Basic fibroblast growth factor (bFGF) is a potent mitogen for bone. In this study, we utilized the clonal rat osteoblastic cell line, Py1a, to examine signal transduction by bFGF and to determine the role of mitogen activated protein kinases (MAPK) and induction of c-fos mRNA in the mitogenic response to bFGF. Stimulation of [3H]thymidine incorporation (TDR) into DNA by bFGF was determined in the presence of phorbol myristate acetate of (PMA) to down-regulate the protein kinase C (PKC) pathway, genistein, an inhibitor of tyrosine kinase and H-7, a PKC inhibitor, bFGF 10(-8) M and PMA 10(-7) M increased TDR by 242 and 245%, respectively. Treatment with bFGF or PMA for 5 or 30 minutes increased tyrosine phosphorylation of multiple proteins, and immunoblotting with MAPK-specific antibody revealed that two of these bands were the 42 and 44 kD isoforms of MAPK. PMA and bFGF induced c-fos mRNA expression at 30 minutes. Genistein at 10 micrograms/ml blocked the mitogenic effect of bFGF and partially inhibited the mitogenic effect of PMA. Genistein at 100 micrograms/ml also blocked both bFGF- and PMA-induced increases in c-fos mRNA. A 24 h pretreatment with PMA at 10(-7) M inhibited the mitogenic response, tyrosine phosphorylation of MAPK, and induction of c-fos mRNA subsequent to the addition of PMA, but not bFGF. H-7 at 50 microM blocked bFGF-induced mitogenesis and c-fos induction, but did not inhibit bFGF-induced tyrosine phosphorylation of MAPK. In this study, we show that the signaling pathway of bFGF and PMA are similar in that they both induce tyrosine phosphorylation of MAP kinases and activate c-fos. However, the signaling pathways ultimately diverge in that once the PKC pathway is down-regulated by PMA pretreatment or blocked by the PKC inhibitor H-7, tyrosine phosphorylation of MAP kinase, c-fos induction, and the mitogenic effect of PMA is blocked. In contrast, down-regulation of the PKC pathway inhibits c-fos and the mitogenic response to bFGF, but not bFGF's effects on tyrosine phosphorylation of MAP kinase.
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PMID:Signal transduction by basic fibroblast growth factor in rat osteoblastic Py1a cells. 886

Cell morphogenesis is a fundamental phenomenon that involves understanding a number of biological processes including the developmental program, polarity and cell division. Fission yeast sts5 mutant cells are round rather than cylindrical with cortical actin randomly dispersed. Genetic analyses demonstrate that the sts5+ gene is required for maintenance of cell shape during interphase when the cell normally exhibits polarised growth. The sts5 mutant is not defective in cell wall integrity. Deletion of ppe1+, which encodes a type 2A-like protein phosphatase, shows similar phenotypes to the sts5 mutant and these two mutations are synthetically lethal. Multicopy plasmids containing either the protein kinase C-like gene pck1+ or the protein tyrosine phosphatase pyp1+, an inhibitor of an osmosensing Sty1/Spc1 MAP-kinase, are capable of suppressing the sts5 mutation. Consistent with this, we have found that the wis1 mutation, which is defective in a MAP-kinase kinase of the pathway, suppresses the sts5 mutation. The predicted sts5+ gene product exhibits sequence similarity to two yeast proteins, Dis3 and Ssd1 and a nematode protein, F46E8.6, where the former two yeast proteins have been shown to be involved in cell cycle control and cell morphogenesis. The sts5+ gene is not essential for cell viability, but is absolutely required for polarised growth as the gene disruption showed the same phenotypes as those of the original mutants. Overexpression of the sts5+ gene resulted in altered cell morphology and, cortical actin in these overproducing cells was also abnormal, fainter and often dispersed. Anti-Sts5 antibody specifically detected a 130 kDa protein by western blotting. A green fluorescent protein-Sts5 fusion protein localised in the cytoplasm with a discrete punctate pattern, suggesting that the Sts5 protein is a component of a novel structure. These results have indicated that the Sts5 protein is a crucial determinant of polarised growth and that it functionally interacts with the serine/threonine phosphatase, protein kinase C, and an osmosensing MAP-kinase to maintain cell morphology.
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PMID:The fission yeast sts5+ gene is required for maintenance of growth polarity and functionally interacts with protein kinase C and an osmosensing MAP-kinase pathway. 888 83

1. Phosphorylation of caldesmon was assayed in canine colonic circular smooth muscle strips labelled with 32P and stimulated with 10 microM acetylcholine. Caldesmon was isolated by two-dimensional non-equilibrium pH gel electrophoresis. Stimulation with acetylcholine increased caldesmon phosphorylation significantly from a basal level of 0.6 +/- 0.07 to 1.1 +/- 0.15 mol P1 (mol caldesmon)-1 after 2 min. 2. MAP kinase activities were measured in SDS extracts of muscle by a gel reconstitution method using myelin basic protein. Myelin basic protein kinase activities were observed at 38, 44, 50 and 57 kDa by the gel reconstitution method. Endogenous caldesmon kinase activities were also identified by the gel reconstitution method at 38, 44 and 50 kDa. The 38 and 44 kDa kinases comigrated with proteins labelled by anti-ERK1 MAP kinase antibodies on Western blots. Both 38 and 44 kDa MBP kinase activities increased significantly during contractions induced by 10 microM acetylcholine, 0.1 microM neurokinin A and 70 mM potassium. 3. Phorbol dibutyrate (0.1 microM) potentiated activation of MAP kinases and contraction of depolarized muscles while producing a decrease in fura-2 fluorescence ratio. This suggests that protein kinase C activation is coupled to MAP kinase activity in colonic smooth muscle. 4. MAP kinases isolated form muscle homogenates by Mono Q chromatography were assayed using the specific MAP kinase substrate peptide APRTPGGRR. Stimulation of muscles for 2 min with 10 microM acetylcholine activated both ERK1 and ERK2 MAP kinase activities 2-fold. 5. To determine the effects of caldesmon phosphorylation by MAP kinase on the cross-bridge cycle, actin sliding velocity was measured with an in vitro motility assay. Unphosphorylated turkey gizzard caldesmon (3 microM) significantly reduced mean sliding velocity. Phosphorylation of caldesmon with sea star ERK1 MAP kinase reversed the inhibitory effect of caldesmon on sliding velocity. The results are consistent with a protein kinase cascade being activated by contractile agonists in gastrointestinal smooth muscle which activates ERK MAP kinases leading to phosphorylation of caldesmon. Phosphorylation of caldesmon in vivo may reverse inhibitory influences of caldesmon on cross-bridge cycling.
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PMID:Activation of MAP kinases and phosphorylation of caldesmon in canine colonic smooth muscle. 888 69

Both angiotensin II (Ang II) and platelet-derived growth factor (PDGF) rapidly increase intracellular Ca2+ and activate protein kinase C (PKC) and MAP kinase in vascular smooth muscle cells (VSMCs). However, Ang II causes cell hypertrophy, whereas PDGF causes hyperplasia. These findings indicate that VSMCs are a good model for studying the relationship between cell growth and the MAP kinase pathway. In this study, we investigated the role of Raf in activation of 42- and 44-kD MAP kinases. Western blot analysis showed that c-Raf-1 was the predominant Raf isozyme in cultured rat aortic VSMCs. In response to Ang II, there was translocation of Raf to the membrane, which occurred significantly earlier than MAP kinase activation, suggesting that Raf activation precedes MAP kinase activation. Translocation of Raf to the membrane resulted in association with H-Ras as shown by c-Raf-1 coprecipitation with anti-Ras anti-bodies. Western blot analysis of H-Ras immunoprecipitates revealed c-Raf-1, but c-mos, MEK (MAP kinase/extracellular signal-regulated kinase) kinase-1 (MEKK-1), and Raf-B were not present. MAP kinase kinase kinase (MAPKKK) activity was assayed in c-Raf-1 and H-Ras immunoprecipitates by MAP kinase kinase-dependent phosphorylation of catalytically inactive 42-kD MAP kinase. In Ras immunoprecipitates, MAPKKK activity was stimulated approximately threefold by both Ang II and PDGF, with a peak at 5 minutes. Downregulation of PKC by 24-hour exposure to phorbol ester significantly inhibited Ang II-stimulated and PDGF-stimulated MAPKKK activity (approximately 80% decrease) and Raf translocation (approximately 90% decrease), suggesting that a phorbol-responsive PKC is upstream from MAPKKK and Raf. In contrast, Ang II (but not PDGF) stimulation of MAP kinase was unaffected by PKC downregulation or pharmacological PKC inhibition. These findings demonstrate for the first time that Ang II stimulation of MAP kinase may occur via a pathway independent of c-Raf-1 and of the phorbol-responsive PKC isozymes. The differing effects of Ang II and PDGF on VSMC growth may be a consequence of specific signal transduction events, as demonstrated here for activation of MAP kinase.
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PMID:Angiotensin II stimulates MAP kinase kinase kinase activity in vascular smooth muscle cells, Role of Raf. 888 93

Membrane phospholipids not only constitute structural membrane components, they also contain a wealth of biochemical information. They are the source of numerous lipid mediators (prostaglandins, leukotrienes, thromboxane, paf, lysophosphatidic acid and free fatty acids). These lipids act as second messengers inside the cell to modulate enzyme (e.g. PKC and GAP), ion channels (e.g. Ca2+ and K+) or the activity of factors regulating gene expression either at the transcriptional level (e.g. on the TNF alpha gene) or at the post-transcriptional level (e.g. on the GLUT4 transporter). The synthesis of lipid mediators results from the stimulation of phospholipase A2 (PLA2) activities. PLA2 cleaves membrane phospholipids to give rise to lysophospholipids and to free fatty acids from which second messengers are generated. More specifically, PLA2 provides the precursor for the eicosanoids, when the cleaved fatty acid is arachidonic acid, or for PAF, when the sn-1 position of the phospholipid is an alkyl ether linkage. Therefore, PLA2 is a key enzyme in the regulation of lipid mediators of inflammatory process. The purification and cloning of several PLA2s have demonstrated clear differences between secreted and intracellular PLA2. The secreted PLA2s are closely related proteins of low molecular weight (14 kDa) with calcium requirement in the mM range. They contain numerous bonds and retain the same amino-acids at the active site. In mammals, two types of secreted PLA2 have been identified: type I pancreatic PLA2 and type II inflammatory PLA2 which show 70% sequence homology. Recently, two others 14 kDa sPLA2 have been cloned which share also high homologies with type I and type II but contain respectively 6 and 8 disulpide bonds. In contrast, cellular PLA2s have higher molecular weights (40-110 kDa) and are either calcium independent or require microM amounts for activity. Cellular PLA2s preferentially act on sn-2-arachidonoyl phospholipids in vitro whereas sPLA2 do not display such selectivity in vitro. Both cellular and secreted PLA2s are involved in lipid mediator production. Cellular PLA2 can be activated by membrane receptors coupled to G proteins or by tyrosine kinase receptor, through the ras-raf1-MAP kinases network. Cellular PLA2s are thought to be involved in the initial production of lipid mediators after cell activation. Several lines of evidence suggest that secreted PLA2 is involved in the sustained production of lipid mediators in several cell types. These lines of evidence include the decrease in eicosanoid production by antibodies RNA of sPLA2. Furthermore, secreted PLA2s might trigger autocrine loops and proliferation responses through interaction with a specific receptor.
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PMID:[Diversity of phospholipases A2 and their functions]. 895 91

Cytosolic phospholipase A2 is a constitutive and ubiquitous enzyme. Although its role in the early production of lipid mediators is well established, the mechanisms leading to its activation and its place in the signal transduction pathways triggered by G-protein-coupled receptors is still unclear. Two main mechanisms, have been involved in its activation: its translocation by the increase of intracellular calcium allowing access to its phospholipidic substrate, and its phosphorylation by serine/threonine protein kinases such as protein kinase C or MAP kinases. However these two mechanisms do not fully explain the activation of cytosolic phospholipase A2. The irreversible association to membranes observed after receptor stimulation suggests that a still unknown anchoring mechanism might be involved. The elucidation of this anchoring might take place in the overall synthesis of distinct lipid mediators pools able to play an intracellular role of second messengers or an extracellular role of autocrine/paracrine mediators.
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PMID:[Coupling of seven transmembrane domains receptors cytosolic PLA2: role of G proteins and protein kinases]. 895 92

Previous studies have indicated that PKCepsilon behaves as an oncogene when overproduced in rodent fibroblasts (Cacace et al., 1993; Mishak et al., 1993). In the present study, Western blot analysis revealed that the hyperphosphorylated form of Raf kinase was present at a high level in PKCepsilon overproducing R6 rat fibroblasts but not in R6 fibroblasts overproducing PKCalpha or beta1. Extracts from the PKCepsilon overproducing cells also exhibited a marked increase in Raf-1 kinase and MAP-kinase activity. To investigate the significance of these findings, dominant negative mutants of ras (N17) or raf (301-1) were stably expressed in early passage control and PKCepsilon-transformed R6 fibroblasts, by transduction using retrovirus-derived constructs. Dominant negative raf expressing clones exhibited a flat morphology, a decreased saturation density, and decreased growth in soft agar. In addition, these reverted clones exhibited decreased Raf kinase activity. In contrast, dominant negative ras expressing clones remained highly transformed. In addition, PKCepsilon was detected in Raf-1 immunoprecipitates indicating that PKCepsilon forms a complex with Raf-1 in vivo. Taken together, these results suggest that PKCepsilon functions as an oncogene in R6 cells by enhancing activation of the Raf-1 kinase.
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PMID:PKC epsilon functions as an oncogene by enhancing activation of the Raf kinase. 900 Jan 26

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