Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

GnRH neurons migrate into the hypothalamus during development. Although migratory defects may result in disordered activation of the reproductive axis and lead to delayed or absent sexual maturation, specific factors regulating GnRH neuronal migration remain largely unknown. The receptor tyrosine kinase, adhesion-related kinase (Ark) (also known as Axl, UFO, and Tyro7), has been implicated in the migration of GnRH neuronal cells. Binding of its ligand, growth arrest-specific gene 6 (Gas6), promotes cytoskeletal remodeling and migration of NLT GnRH neuronal cells via Rac and p38 MAPK. Here, we examined the Axl effectors proximal to Rac in the signaling pathway. Gas6/Axl-induced lamellipodia formation and migration were blocked after phosphatidylinositol-3-kinase (PI3K) inhibition in GnRH neuronal cells. The p85 subunit of PI3K coimmunoprecipitated with Axl and was phosphorylated in a Gas6-sensitive manner. In addition, PI3K inhibition in GnRH neuronal cells diminished Gas6-induced Rac activation. Exogenous expression of a dominant-negative form of Ras also decreased GnRH neuronal lamellipodia formation, migration, and Rac activation. PI3K inhibition blocked Ras in addition to Rac activation and migration. In contrast, pharmacological blockade of the phospholipase C gamma effectors, protein kinase C or calcium/calmodulin protein kinase II, had no effect on Gas6/Axl signaling to promote Rac activation or stimulate cytoskeletal reorganization and migration. Together, these data show that the PI3K-Ras pathway is a major mediator of Axl actions upstream of Rac to induce GnRH neuronal cell migration.
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PMID:Adhesion-related kinase induction of migration requires phosphatidylinositol-3-kinase and ras stimulation of rac activity in immortalized gonadotropin-releasing hormone neuronal cells. 1733 61

Activation of PKCalpha will induce the cSrc binding partner AFAP-110 to colocalize with and activate cSrc. The ability of AFAP-110 to colocalize with cSrc is contingent on the integrity of the amino-terminal pleckstrin homology (PH1) domain, while the ability to activate cSrc is dependent on the integrity of its SH3 binding motif, which engages the cSrc SH3 domain. The outcome of AFAP-110-directed cSrc activation is a change in actin filament integrity and the formation of podosomes. Here, we address what cellular signals promote AFAP-110 to colocalize with and activate cSrc, in response to PKCalpha activation or PMA treatment. Because PH domain integrity in AFAP-110 is required for colocalization, and PH domains are known to interact with both protein and lipid binding partners, we sought to determine whether phosphatidylinositol 3-kinase (PI3K) activation played a role in PMA-induced colocalization between AFAP-110 and cSrc. We show that PMA treatment is able to direct activation of PI3K. Treatment of mouse embryo fibroblast with PI3K inhibitors blocked PMA-directed colocalization between AFAP-110 and cSrc and subsequent cSrc activation. PMA also was unable to induce colocalization or cSrc activation in cells that lacked the p85alpha and -beta regulatory subunits of PI3K. This signaling pathway was required for migration in a wound healing assay. Cells that were null for cSrc or the p85 regulatory subunits or expressed a dominant-negative AFAP-110 also displayed a reduction in migration. Thus PI3K activity is required for PMA-induced colocalization between AFAP-110 and cSrc and subsequent cSrc activation, and this signaling pathway promotes cell migration.
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PMID:PI3K activation is required for PMA-directed activation of cSrc by AFAP-110. 1736 Aug 11

We have recently demonstrated the involvement of phospholipase D (PLD) in actin polymerization during mammalian sperm capacitation. In the present study, we investigated the involvement of phosphatidylinositol 3- and 4-kinases (PI3K and PI4K) in actin polymerization, as well as the production of PIP(2(4,5)), which is a known cofactor for PLD activation, during bovine sperm capacitation. PIK3R1 (p85 alpha regulatory subunit of PI3K) and PIKCB (PI4K beta) in bovine sperm were detected by Western blotting and immunocytochemistry. Wortmannin (WT) inhibited PI3K and PI4K type III at concentrations of 10 nM and 10 microM, respectively. PI4K activity and PIP(2(4,5)) production were blocked by 10 microM WT but not by 10 nM WT, whereas PI3K activity and PIP(3(3,4,5)) production were blocked by 10 nM WT. Moreover, spermine, which is a known PI4K activator and a component of semen, activated sperm PI4K, resulting in increased cellular PIP(2(4,5)) and F-actin formation. The increases in PIP(2(4,5)) and F-actin intracellular levels during sperm capacitation were mediated by PI4K but not by PI3K activity. Activation of protein kinase A (PKA) by dibutyryl cAMP enhanced PIP(2(4,5)), PIP(3(3,4,5)), and F-actin formation, and these effects were mediated through PI3K. On the other hand, activation of PKC by phorbol myristate acetate enhanced PIP(2(4,5)) and F-actin formation mediated by PI4K activity, while the PI3K activity and intracellular PIP(3(3,4,5)) levels were reduced. These results suggest that two alternative pathways lead to PI4K activation: indirect activation by PKA, which is mediated by PI3K; and activation by PKC, which is independent of PI3K activity. Our results also suggest that spermine, which is present in the ejaculate, regulates PI4K activity during the capacitation process in vivo.
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PMID:Role of PI3-kinase and PI4-kinase in actin polymerization during bovine sperm capacitation. 1749 16

In proximal tubular epithelial cells (PTECs), depolymerization of actin by cofilin plays a crucial role in maintaining polarity and function. Cofilin is inactivated when phosphorylated by p-Lin-11/Isl-1/Mec-3 kinase (LIMK) to give p-cofilin. LIMK is phosphorylated by phosphorylated p21-activated kinase (PAK), a downstream signal of phosphoinositide 3-kinase (PI3K), or by Rho kinase (ROCK), and is dephosphorylated by slingshot (SSH). However, in PTECs the signaling pathways regulating phosphorylation and dephosphorylation of cofilin, and the influence of high glucose (HG) on these pathways remain to be elucidated. Here, we show that HG in cultured porcine PTECs (LLC-PK1) increases p-cofilin and p-LIMK1 beyond 6h and that the simultaneous presence of phlorizin reverses the increase. HG did not influence the levels of PI3K-p85, downstream signals to SSH1 and p-PAK1, and mRNA of cofilin, LIMK1 and SSH1. On the other hand, wortmannin and LY294002 markedly increased p-cofilin and p-LIMK1 without influencing on the level of SSH1 protein. HG-activated RhoA and ROCK2 beyond 3h, and phlorizin attenuated this activation. GF109203X inhibited HG-induced increase in membranous RhoA and ROCK2, and phorbol ester increased these proteins. Y27632 (a ROCK inhibitor) reversed HG-induced increases of p-cofilin and p-LIMK1. We conclude that HG increases p-cofilin by phosphorylating LIMK1 through activation of Rho/Rho kinase, probably due to diacylglycerol-sensitive PKC activation resulting from increased glucose influx. HG did not alter PI3K or its downstream signals, even though PI3K has a physiological role in maintaining the cofilin level by activating SSH1.
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PMID:High glucose increases phosphocofilin via phosphorylation of LIM kinase due to Rho/Rho kinase activation in cultured pig proximal tubular epithelial cells. 1809 81

H(2)O(2) is a highly reactive oxygen metabolite that has been implicated as an important mediator of inflammation-induced intestinal injury associated with ischaemia/reperfusion, radiation and inflammatory bowel disease. Previous studies have shown that H(2)O(2) inhibits NaCl absorption and activates Cl(-) secretion in the rat and rabbit colon. To date, however, almost no information is available with respect to its effect on the human intestinal apical anion exchanger Cl(-)/OH(-) (HCO(3)(-)). The present studies were, therefore, undertaken to examine the direct effects of H(2)O(2) on OH(-) gradient-driven DIDS (4,4'-di-isothiocyanostilbene-2,2'-disulfonate)-sensitive (36)Cl(-) uptake utilizing a post-confluent transformed human intestinal epithelial cell line, Caco-2. Our results demonstrate that H(2)O(2) (1 mM for 60 min) significantly inhibited (approx. 60%; P<0.05) Cl(-)/OH(-) exchange activity in Caco-2 cells. H(2)O(2)-mediated inhibition of Cl(-)/OH(-) exchange activity involved the Src kinase Fyn and PI3K (phosphoinositide 3-kinase)-dependent pathways. H(2)O(2) also induced phosphorylation of Fyn and p85 (the regulatory subunit of PI3K) in Caco-2 cells. Moreover, an increased association of Fyn and p85 was observed in response to H(2)O(2), resulting in the activation of the downstream target PLCgamma1 (phospholipase Cgamma1). Elevated intracellular Ca(2+) levels and PKCalpha (protein kinase Calpha) functioned as downstream effectors of H(2)O(2)-induced PLCgamma1 activation. Our results, for the first time, provide evidence for H(2)O(2)-induced Src kinase Fyn/PI3K complex association. This complex association resulted in the subsequent activation of PLCgamma1 and Ca(2+)-dependent PKCalpha, resulting in the inhibition of Cl(-)/OH(-) exchange activity. These findings suggest that H(2)O(2)-induced inhibition of the Cl(-)/OH(-) exchange process may play an important role in the pathophysiology of diarrhoea associated with inflammatory disorders, where the amount of reactive oxygen species is markedly elevated.
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PMID:Role of Fyn and PI3K in H2O2-induced inhibition of apical Cl-/OH- exchange activity in human intestinal epithelial cells. 1856 62

Our inability to develop new therapeutic strategies to prevent meningitis due to Escherichia coli K1 is attributed to our incomplete understanding of the pathophysiology of the disease. Previously, we demonstrated that outer membrane protein A of E. coli interacts with a gp96 homologue, Ec-gp96, on human brain microvascular endothelial cells (HBMEC) for invasion. However, signalling events mediated by Ec-gp96 that allow internalization of E. coli are incompletely understood. Here, we demonstrate that signal transducer and activator of transcription 3 (Stat3) activation and its interaction with Ec-gp96 were critical for E. coli invasion. The activated Stat3 was colocalized with Ec-gp96 at the actin condensation sites, and overexpressing a dominant negative (DN) form of Stat3 in HBMEC significantly abrogated the invasion. Furthermore, overexpression of Ec-gp96Delta200, the C-terminal 214-amino-acid truncated Ec-gp96, prevented the invasion of E. coli in HBMEC. In contrast, lack of ATP binding by gp96 did not affect the invasion. Overexpression of DN forms of either phosphatidyl inositol-3 kinase (PI3-kinase) subunit p85 or protein kinase C-alpha (PKC-alpha) had no effect on the activation of Stat3 and its association with Ec-gp96, whereas overexpression of DN-Stat3 abolished the activation of both PI3-kinase and PKC-alpha. Together, our findings identified a novel interaction of Stat3 with Ec-gp96, upstream of PI3-kinase and PKC-alpha activation that is required for the invasion of E. coli into HBMEC.
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PMID:Escherichia coli interaction with human brain microvascular endothelial cells induces signal transducer and activator of transcription 3 association with the C-terminal domain of Ec-gp96, the outer membrane protein A receptor for invasion. 1866 21

Saturated fatty acids, such as palmitate, promote accumulation of ceramide, which impairs activation and signalling of PKB (protein kinase B; also known as Akt) to important end points such as glucose transport. SPT (serine palmitoyl transferase) is a key enzyme regulating ceramide synthesis from palmitate and represents a potential molecular target in curbing lipid-induced insulin resistance. In the present study we explore the effects of palmitate upon insulin action in L6 muscle cells in which SPT expression/activity has been decreased by shRNA (small-hairpin RNA) or sustained incubation with myriocin, an SPT inhibitor. Incubation of L6 myotubes with palmitate (for 16 h) increases intramyocellular ceramide and reduces insulin-stimulated PKB activation and glucose uptake. PKB inhibition was not associated with impaired IRS (insulin receptor substrate) signalling and was ameliorated by short-term treatment with myriocin. Silencing SPT expression (approximately 90%) by shRNA or chronic cell incubation with myriocin (for 7 days) markedly suppressed SPT activity and palmitate-driven ceramide synthesis; however, challenging these muscle cells with palmitate still inhibited the hormonal activation of PKB. This inhibition was associated with reduced IRS1/p85-PI3K (phosphoinositide 3-kinase) coupling that arises from diverting palmitate towards greater DAG (diacylglycerol) synthesis, which elevates IRS1 serine phosphorylation via activation of DAG-sensitive PKCs (protein kinase Cs). Treatment of SPT-shRNA cells or those treated chronically with myriocin with PKC inhibitors antagonized palmitate-induced loss in insulin signalling. The findings of the present study indicate that SPT plays a crucial role in desensitizing muscle cells to insulin in response to incubation with palmitate. While short-term inhibition of SPT ameliorates palmitate/ceramide-induced insulin resistance, sustained loss/reduction in SPT expression/activity promotes greater partitioning of palmitate towards DAG synthesis, which impacts negatively upon IRS1-directed insulin signalling.
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PMID:Modulating serine palmitoyl transferase (SPT) expression and activity unveils a crucial role in lipid-induced insulin resistance in rat skeletal muscle cells. 1892 31

A world-wide series of epidemiological and experimental studies have demonstrated that there is an association between being small at birth, accelerated growth in early postnatal life and the emergence of insulin resistance in adult life. The aim of this study was to investigate why accelerated growth occurs in postnatal life after in utero growth restriction. Samples of quadriceps muscle were collected at approximately 140 days gestation (term approximately 150 days gestation) from normally grown fetal lambs (Control, n = 7) and from growth restricted fetal lambs (placentally restricted: PR, n = 8) and from Control (n = 14) and PR (n = 9) lambs at 21 days after birth. The abundance of the insulin and IGF1 receptor protein was higher in the quadriceps muscle of the PR fetus, but there was a lower abundance of the insulin signalling molecule PKC, and GLUT4 protein in the PR group. At 21 days of postnatal age, insulin receptor abundance remained higher in the muscle of the PR lamb, and there was also an up-regulation of the insulin signalling molecules, PI3Kinase p85, Akt1 and Akt2 and of the GLUT4 protein in the PR group. Fetal growth restriction therefore results in an increased abundance of the insulin receptor in skeletal muscle, which persists after birth when it is associated with an upregulation of insulin signalling molecules and the glucose transporter, GLUT4. These data provide evidence that the origins of the accelerated growth experienced by the small baby after birth lie in the adaptive response of the growth restricted fetus to its low placental substrate supply.
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PMID:The transition from fetal growth restriction to accelerated postnatal growth: a potential role for insulin signalling in skeletal muscle. 1962 3

Berberine has been shown to have insulin-sensitizing effect, but the molecular mechanism underlying remains elusive. In this work, we investigated the effect of berberine on insulin-induced signal transduction and glucose uptake in both insulin-sensitive and insulin-resistant rat skeletal muscle cells. Berberine increased the activity of AMPK and PKCzeta and AS160 phosphorylation in normal cells, but had little effect on PKB activation. In insulin-resistant state, berberine exhibited synergistic effect on insulin-induced glucose uptake and GLUT4 translocation. Berberine improved insulin-induced tyrosine-phosphorylation of IRS-1 and the recruitment of p85 to IRS-1. These changes were accompanied by enhancement in insulin-induced PKCzeta and PKB activity and actin remodeling. The ameliorated insulin signal transduction was related to the inhibition of mTOR by berberine, which attenuated serine-phosphorylation of IRS-1. These results suggest that berberine may overcome insulin resistance via modulating key molecules in insulin signaling pathway, leading to increased glucose uptake in insulin-resistant cells.
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PMID:Berberine modulates insulin signaling transduction in insulin-resistant cells. 2003 10

Atypical protein kinase C (aPKC) isoforms (lambda and zeta) have been implicated in the control of insulin-stimulated glucose uptake in adipose and skeletal muscle, but their precise role in this process remains unclear, especially in light of accumulating evidence showing that, in response to numerous stimuli, including insulin and lipids such as ceramide, activation of aPKCs acts to negatively regulate key insulin-signaling molecules, such as insulin receptor substrate-1 (IRS-1) and protein kinase B (PKB)/cAMP-dependent PKC (Akt). In this study, we have depleted PKClambda in L6 skeletal muscle cells using RNA interference and assessed the effect this has upon insulin action. Muscle cells did not express detectable amounts of PKCzeta. Depletion of PKClambda (>95%) had no significant effect on the expression of proteins participating in insulin signaling [i.e., insulin receptor, IRS-1, phosphatidylinositol 3-kinase (PI 3-kinase), PKB, or phosphate and tensin homolog deleted on chromosome 10] or those involved in glucose transport [Akt substrate of 160 kDa, glucose transporter (GLUT)1, or GLUT4]. However, PKClambda-depleted muscle cells exhibited greater activation of PKB/Akt and phosphorylation of its downstream target glycogen synthase kinase 3, in the basal state and displayed greater responsiveness to submaximal doses of insulin with respect to p85-PI 3-kinase/IRS-1 association and PKB activation. The increase in basal and insulin-induced signaling resulted in an associated enhancement of basal and insulin-stimulated glucose transport, both of which were inhibited by the PI 3-kinase inhibitor wortmannin. Additionally, like RNAi-mediated depletion of PKClambda, overexpression of a dominant-negative mutant of PKCzeta induced a similar insulin-sensitizing effect on PKB activation. Our findings indicate that aPKCs are likely to play an important role in restraining proximal insulin signaling events but appear dispensable with respect to insulin-stimulated glucose uptake in cultured L6 muscle cells.
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PMID:Cellular depletion of atypical PKC{lambda} is associated with enhanced insulin sensitivity and glucose uptake in L6 rat skeletal muscle cells. 2053 Jul 34


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