EC:3.1.4.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.3 (phospholipase C)
18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Epidermal growth factor (EGF) is known to play an important role in modulating renal transport functions. Thus, we investigated the effect of EGF on Ca(2+) uptake and its related signals in the primary cultured rabbit renal proximal tubule cells. EGF (50 ng/ml, 1 h) stimulated Ca(2+) uptake. Its effect was blocked by AG 1478 (an EGF receptor antagonist), genistein or herbimycin A (tyrosine kinase inhibitors). EGF increased intracellular cAMP level and SQ 22536 (an adenylate cyclase inhibitor), Rp-cAMP (a cAMP analogue), or PKI (a protein kinase A inhibitor) blocked the EGF-induced stimulation of Ca(2+) uptake. EGF-induced stimulation of Ca(2+) uptake was also blocked by neomycin or U-73122 (phospholipase C inhibitors), staurosporine, H-7, or bisindolylmaleimide I (protein kinase C inhibitors), nifedipine or methoxyverapamil (L-type Ca(2+) channel blockers). It increased IPs formation by 167 +/- 5% compare to control within 90 s. On the other hand, EGF increased [(3)H]-arachidonic acid release, which was significantly blocked by PKC inhibitors. In addition, PGE(2), one of cyclooxygenase metabolites, and 5,6-EET, one of cytochrome P-450 metabolites, increased Ca(2+) uptake. These results suggest that cAMP, PLC/PKC, and PLA(2) are involved in EGF-induced stimulation of Ca(2+) uptake.
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PMID:Epidermal growth factor regulates Ca2+ uptake in primary cultured renal proximal tubule cells: involvement of cAMP, PKC and cPLA2. 1288 43

The effect of EGF on (14)C-alpha-methyl-D-glucopyranoside (alpha-MG) uptake and its related signaling pathways were examined in primary cultured rabbit renal proximal tubule cells (PTCs). Epidermal growth factor (EGF) (50 ng/ml) was found to inhibit alpha-MG uptake, a distinctive proximal tubule marker. The EGF effect was blocked by AG1478 (an EGF receptor antagonist) or genistein and herbimycin (tyrosine kinase inhibitors), respectively. In addition, the EGF-induced inhibition of alpha-MG uptake was blocked by neomycin and U73122 (phospholipase C inhibitors) as well as staurosporine, H-7, and bisindolylmaleimide I (protein kinase C inhibitors). EGF was also observed to increase inositol phosphate formation. Furthermore, both the EGF-induced inhibition of alpha-MG uptake and increase of arachidonic acid (AA) release were blocked by AACOCF(3) (a cytosolic phospholipase A(2) inhibitor), indomethacin (a cyclooxygenase inhibitor), and econazole (a cytochrome P-450 epoxygenase inhibitor). We examined the involvement of mitogen-activated protein kinases (MAPKs) in mediating the effect of EGF on alpha-MG uptake. Indeed, EGF increased phosphorylation of p44/p42 MAPK and the EGF-induced inhibition of alpha-MG uptake as well as the stimulatory effect of EGF on AA release was blocked by PD 98059 (a p44/42 MAPK inhibitor), suggesting a causal relationship. However, inhibitors of PKC also prevented the EGF-induced increase of AA release. In conclusion, EGF partially inhibited alpha-MG uptake via PLC/PKC, p44/42 MAPK, and PLA(2) signaling pathways.
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PMID:Epidermal growth factor inhibits 14C-alpha-methyl-D-glucopyranoside uptake in renal proximal tubule cells: involvement of PLC/PKC, p44/42 MAPK, and cPLA2. 1504 3

Receptor tyrosine kinase regulation of phospholipase C-epsilon (PLC-epsilon), which is under the control of Ras-like and Rho GTPases, was studied with HEK-293 cells endogenously expressing PLC-coupled epidermal growth factor (EGF) receptors. PLC and Ca(2+) signaling by the EGF receptor, which activated both PLC-gamma1 and PLC-epsilon, was specifically suppressed by inactivation of Ras-related GTPases with clostridial toxins and expression of dominant-negative Rap2B. EGF induced rapid and sustained GTP loading of Rap2B, binding of Rap2B to PLC-epsilon, and Rap2B-dependent translocation of PLC-epsilon to the plasma membrane. GTP loading of Rap2B by EGF was inhibited by chelation of intracellular Ca(2+) and expression of lipase-inactive PLC-gamma1 but not of PLC-epsilon. Expression of RasGRP3, a Ca(2+)/diacylglycerol-regulated guanine nucleotide exchange factor for Ras-like GTPases, but not expression of various other exchange factors enhanced GTP loading of Rap2B and PLC/Ca(2+) signaling by the EGF receptor. EGF induced tyrosine phosphorylation of RasGRP3, but not RasGRP1, apparently caused by c-Src; inhibition of c-Src interfered with EGF-induced Rap2B activation and PLC stimulation. Collectively, these data suggest that the EGF receptor triggers activation of Rap2B via PLC-gamma1 activation and tyrosine phosphorylation of RasGRP3 by c-Src, finally resulting in stimulation of PLC-epsilon.
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PMID:Rap2B-dependent stimulation of phospholipase C-epsilon by epidermal growth factor receptor mediated by c-Src phosphorylation of RasGRP3. 1514 62

The intracellular distribution of hsp70 and hdj1 was studied using immunofluorescent method. In nonstimulated cells hsp70 and hdj1 were observed in the cytoplasm of A431 cells. When 100 ng/ml EGF was added for 15 min, both hsp70 and hdj1 were accumulated in the nuclei. Later on (up to 1 h) hsp70 was exported from the nuclei to be observed mainly in the cytoplasm, whereas hdj1 remained in the nuclei. In cells exposed to tyrphostin AG1478, this inhibitor of tyrosine kinase activity of EGF receptor prevented EGF-dependent accumulation of hsp70 and hdj1 in the nuclei. U73122, an inhibitor of phospholipase C activity, induced tyrosine phosphorylation of EGF receptor without EGF stimulation. In cells treated with U73122, both hsp70 and hdj1 were detected in the nuclei of non-stimulated cells. It is concluded that the intracellular distribution of heat shock proteins in A431 cells depends on tyrosine kinase activity of EGF receptor. Here we report for the first time the influence of EGF on the intracellular redistribution of heat shock proteins.
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PMID:[Effect of EGF on the intracellular distribution of heat-shock proteins in A431 cells]. 1521 34

Sialyl-Lewis x epitopes and MUC5AC protein are known to be overexpressed in mucins secreted by patients suffering from various respiratory diseases. To investigate the mechanisms by which airway inflammatory agents mediate the expression of sialyl-Lewis x epitopes and MUC5AC mucin, we examined the effects of tumor necrosis factor (TNF)-alpha and epidermal growth factor (EGF) in the human lung carcinoma cell line, NCI-H292. Basal expression levels of hST3GalIV, FUT3 and C2/4GnT mRNA, involved in the biosynthesis of sialyl-Lewis x, were higher than those of other glycosyltransferases in NCI-H292 cells. TNF-alpha induced expression of hST3GalIV, FUT3, C2/4GnT and MUC5AC mRNAs in NCI-H292 cells. When cells were pretreated with U73122, a phosphatidylinositol-phospholipase C (PI-PLC) inhibitor, the expression of these glycosyltransferase mRNAs was suppressed. Treating cells with EGF induced the down-regulation of these glycosyltransferase mRNAs and sialyl-Lewis x epitopes, while inducing an increase in expression of MUC5AC mRNA. These EGF-mediated effects on the glycosyltransferase and MUC5AC mRNAs were blocked when cells were first exposed to AG1478, an EGF receptor tyrosine kinase inhibitor. These findings suggest that the expression of sialyl-Lewis x epitopes, which is regulated separately from the expression of MUC5AC protein, may be controlled through pathways such as the EGF receptor tyrosine kinase and PI-PLC signaling cascades in NCI-H292 cells.
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PMID:Regulation of sialyl-Lewis x epitope expression by TNF-alpha and EGF in an airway carcinoma cell line. 1586 35

PKD2, or polycystin 2, the product of the gene mutated in type 2 autosomal dominant polycystic kidney disease, belongs to the transient receptor potential channel superfamily and has been shown to function as a nonselective cation channel in the plasma membrane. However, the mechanism of PKD2 activation remains elusive. We show that PKD2 overexpression increases epidermal growth factor (EGF)-induced inward currents in LLC-PK(1) kidney epithelial cells, while the knockdown of endogenous PKD2 by RNA interference or the expression of a pathogenic missense variant, PKD2-D511V, blunts the EGF-induced response. Pharmacological experiments indicate that the EGF-induced activation of PKD2 occurs independently of store depletion but requires the activity of phospholipase C (PLC) and phosphoinositide 3-kinase (PI3K). Pipette infusion of purified phosphatidylinositol-4,5-bisphosphate (PIP(2)) suppresses the PKD2-mediated effect on EGF-induced conductance, while pipette infusion of phosphatidylinositol-3,4,5-trisphosphate (PIP(3)) does not have any effect on this conductance. Overexpression of type Ialpha phosphatidylinositol-4-phosphate 5-kinase [PIP(5)Kalpha], which catalyzes the formation of PIP(2), suppresses EGF-induced currents. Biochemical experiments show that PKD2 physically interacts with PLC-gamma2 and EGF receptor (EGFR) in transfected HEK293T cells and colocalizes with EGFR and PIP(2) in the primary cilium of LLC-PK(1) cells. We propose that plasma membrane PKD2 is under negative regulation by PIP(2). EGF may reduce the threshold of PKD2 activation by mechanical and other stimuli by releasing it from PIP(2)-mediated inhibition.
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PMID:PKD2 functions as an epidermal growth factor-activated plasma membrane channel. 1613 16

It has been reported that epidermal growth factor (EGF) and EGF receptor were highly expressed in embryo, suggesting that the EGF system is related to early embryo development in an autocrine and/or paracrine manner. Glucose becomes the preimplantation exogenous energy substrate and enters the blastocyst via glucose transporters. Thus, the effect of EGF on [3H]-2-deoxyglucose (2-DG) uptake and its related signaling pathways were examined in mouse embryonic stem (ES) cells. EGF significantly increased 2-DG uptake in time- and concentration- dependent manner (>12 hr, >10 ng/ ml) and increased mRNA and protein level of glucose transporter 1 (GLUT1) compared to control, respectively. Actinomycin D and cycloheximide completely blocked the effect of EGF on 2-DG uptake. EGF-induced increase of 2-DG uptake was blocked by AG1478 (EGF receptor tyrosine kinase blocker), genistein or herbimycin (tyrosine kinase inhibitors). In addition, EGF effect was blocked by neomycin and U 73122 [phospholipase C (PLC) inhibitors] as well as staurosporine and bisindolylmaleimide I [protein kinase C (PKC) inhibitors]. EGF was also observed to increase inositol phosphates (IPs) formation and activate a PKC translocation from the cytosolic to membrane fraction, suggesting a role of PLC and PKC. SB 203580 [p38 mitogen activated protein kinase (MAPK) inhibitor] or PD 98059 (p44/42 MAPKs inhibitor) blocked EGF-induced increase of 2-DG uptake. EGF also increased phosphorylation of p38 MAPK and p44/42 MAPKs, which was blocked by genistein or bisindolylmaleimide I, respectively. In conclusion, EGF partially increased 2-DG uptake via PKC, p38 MAPK, and p44/42 MAPKs in mouse ES cells.
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PMID:PKC and MAPKs pathways mediate EGF-induced stimulation of 2-deoxyglucose uptake in mouse embryonic stem cells. 1654 31

Phosphoinositide-specific phospholipase C (PLC) plays a pivotal role in signal transduction from various receptor molecules on the plasma membrane. PLCepsilon is characterized by possession of two Ras/Rap-associating (RA) domains and a CDC25 homology domain acting as a guanine nucleotide exchange factor for Rap1. Our recent studies using PLCepsilon-deficient mice have suggested that PLCepsilon plays crucial roles in cardiac semilunar valvulogenesis downstream of the EGF receptor, as well as in chemical carcinogen-induced skin tumor development downstream of Ha-Ras. Stimulation of cultured mammalian cells with growth factors induces translocation of PLCepsilon from the cytoplasm to the plasma membrane and to the Golgi apparatus through direct association at its RA domains with the GTP-bound forms of Ras and Rap1, respectively. These results suggest that growth factor stimulation activates PLCepsilon by means of Ras and/or Rap1. However, growth factor-induced activation of the PLCepsilon lipase activity cannot be measured accurately because of simultaneous activation of PLCgamma through receptor-dependent phosphorylation. In this article, we introduce two methods to assay Ras- or Rap1-dependent activation of PLCepsilon lipase activity, with special emphasis on the use of cells expressing a mutant platelet-derived growth factor receptor lacking the PLCgamma-binding sites.
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PMID:Ras and Rap1 activation of PLCepsilon lipase activity. 1675 17

Calpain activity is required for de-adhesion of the cell body and rear to enable productive locomotion of adherent cells during wound repair and tumor invasion. Growth factors activate m-calpain (calpain 2, CAPN2) via ERK/mitogen-activated protein kinases, but only when these kinases are localized to the plasma membrane. We thus hypothesized that m-calpain is activated by epidermal growth factor (EGF) only when it is juxtaposed to the plasma membrane secondary to specific docking. Osmotic disruption of NR6 fibroblasts expressing the EGF receptor demonstrated m-calpain being complexed with the substratum-adherent membrane with this increasing in an EGF-dependent manner. m-Calpain colocalized with phosphoinositide biphosphate (PIP(2)) with exogenous phospholipase C removal of phosphoinositides, specifically, PI(4,5)P(2) but not PI(4)P(1) or PIP(3), releasing the bound m-calpain. Downregulation of phosphoinositide production by 1-butanol resulted in diminished PIP(2) in the plasma membrane and eliminated EGF-induced calpain activation. This PIP(2)-binding capacity resided in domain III of calpain, which presents a putative C2-like domain. This active conformation of this domain appears to be partially masked in the holoenzyme as both activation of m-calpain by phosphorylation at serine 50 and expression of constitutively active phosphorylation mimic glutamic acid-increased m-calpain binding to the membrane, consistent with blockade of this cascade diminishing membrane association. Importantly, we found that m-calpain was enriched toward the rear of locomoting cells, which was more pronounced in the plasma membrane footprints; EGF further enhanced this enrichment, in line with earlier reports of loss of PIP(2) in lamellipodia of motile cells. These data support a model of m-calpain binding to PIP(2) concurrent with and likely to enable ERK activation and provides a mechanism by which cell de-adhesion is directed to the cell body and tail as phospholipase C-gamma hydrolyzes PIP(2) in the protruding lamellipodia.
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PMID:Spatial localization of m-calpain to the plasma membrane by phosphoinositide biphosphate binding during epidermal growth factor receptor-mediated activation. 1680 81

Endothelin-1 (ET-1) is a potent mitogen for many cells, especially when its levels are elevated under pathological conditions, as seen in tumor cell progression and astroglial activation in neuropathies. While ET-1 is known to cause astroglial proliferation, in the present study, multiple signaling pathways involved in ET-1-mediated astrocyte proliferation were characterized. Treatment with PD98059 and U0126 (MEK inhibitors) inhibited not only ET-1-induced cell proliferation but also ET-1-activated phosphorylation of extracellular signal-regulated protein kinase 1/2 (ERK1/2) in U373MG astrocytoma cells. Whereas the nonselective protein kinase C (PKC) inhibitor chelerythrine attenuated ET-1-induced cell proliferation, it was unable to block ET-1-induced ERK phosphorylation. However, ET-1 did not activate conventional or novel PKCs and did not elevate intracellular calcium. In addition, U73122 (a selective phospholipase C inhibitor), FTI-277 (an H-Ras inhibitor), as well as protein tyrosine kinase inhibitors also did not abolish ET-1-induced ERK1/2 phosphorylation. ET-1 treatment increased the activity of total Ras but not H-Ras. The phosphoinositide 3-kinase (PI3K) pathway appeared to be involved in signal transduction induced by ET-1, but it did not appear to participate in cross talk with the mitogen-activated protein kinase (MAPK) pathway. Activated ET receptors did not propagate signals either through protein tyrosine kinases or transactivation of EGF receptor tyrosine kinases, which typically trigger Ras-Raf-MAPK pathways. The results indicate that ET-1 stimulates cell proliferation by the activation of MAPK-, PKC-, and PI3K-dependent pathways that appear to function in a parallel manner. There is no apparent, direct "cross talk" between these pathways in U373MG cells, but rather, they might act on the independent but necessary components of the mitogenic effects of ET-1.
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PMID:Parallel signaling pathways in endothelin-1-induced proliferation of U373MG astrocytoma cells. 1732 70

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