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)

The different platelet-activating factor (PAF) receptor subtypes were identified in alveolar macrophages of hamster and guinea pig, based on the distinct characteristics of PAF-induced Ca++ responses and PAF antagonist potencies to these responses. PAF, but not lyso-PAF (inactive PAF), induced Ca++ release from intracellular Ca++ stores and the influx of extracellular Ca++ in a dose-dependent manner in both hamster and guinea pig alveolar macrophages. The potency for PAF-stimulated Ca++ release, however, was significantly different between the two species with EC50 values being 30- and 50-fold higher in Ca++ release and Ca++ influx responses in guinea pig than hamster, respectively. In addition, there were distinct differences in Ca++ influx characteristics between the two species; guinea pig macrophages exhibiting a rapid Ca++ extrusion and high sensitivity to thapsigargin (depletion of intracellular Ca++ store). The PAF-induced Ca++ response was sensitive to G-protein inhibitor pertussis toxin in hamster but not in guinea pig, suggesting the coupling of different types of G-proteins to PAF receptors. Pretreatment of macrophages with tyrosine kinase inhibitor, herbimycin A, caused a dose-dependent decrease in PAF-induced Ca++ response in guinea pig but surprisingly an increased response in hamster. These observations suggest the possibility of a dual mechanism, for G-protein and tyrosine kinase, in PAF-induced phospholipase C activation of macrophages from both species and thus Ca++ signaling in response to PAF-mediated receptor signal transduction cascade. The PAF-induced Ca++ response was desensitized by repetitive stimulation with PAF or pretreatment with protein kinase C activator, mitogen-activated protein kinase, which had a slightly greater potency in guinea pig than hamster. Importantly, three structurally distinct PAF antagonists, WEB2086, L659,989 and CL184005, blocked PAF-induced Ca++ responses in a dose-dependent manner with a markedly different potencies between the two species. The IC50 values for inhibiting PAF-induced Ca++ release were 2.5- (WEB2086), 650- (L659,989) and 120- (CL184005) fold less in hamster than in guinea pig. The relative potencies of these PAF antagonists in hamster macrophages were L659,989 > CL184005 > WEB2086. However, in guinea pig these three antagonists showed roughly the same potency. Interestingly, the opposite inhibitory effects of these antagonists on PAF-induced Ca++ influx were found in the two species, in which the IC50 were 15- (WEB2086) and 5- (CL184005) fold greater in hamster than in guinea pig but no difference in the IC50 value of L659,989 between the two species. Pretreatment of macrophages from both species with these antagonists had no effect on ATP-induced Ca++ response, suggesting that the antagonism is specific to PAF receptors. Based on our data, it was concluded that the alveolar macrophages isolated from the bronchoalveolar lavage of hamsters contain a distinct subtype PAF receptor that differs from that of guinea pigs in modulating a different signal transduction pathway.
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PMID:Differences in platelet-activating factor receptor mediated Ca++ response between hamster and guinea pig alveolar macrophages. 919 Aug 35

Neurturin (NTN) is a neurotrophic factor that shares homology with glial cell line-derived neurotrophic factor (GDNF). Recently, a receptor complex has been identified for GDNF that includes the Ret tyrosine kinase receptor and a glycosylphosphatidylinositol-linked protein termed "GDNFRalpha." However, differences in the phenotype of Ret and GDNF knockout animals suggest that Ret has at least one additional ligand. In this report, we demonstrate that NTN induces Ret phosphorylation in primary cultures of rat superior cervical ganglion (SCG) neurons. NTN also caused Ret phosphorylation in fibroblasts that were transfected stably with Ret and GDNFRalpha but not in cells expressing Ret alone. A glycosylphosphatidylinositol-linked protein also was important for NTN and GDNF signaling in SCG neurons; phosphatidylinositol-specific phospholipase C treatment of SCG cultures reduced the ability of NTN to phosphorylate Ret and the ability of NTN or GDNF to activate the mitogen-activated protein kinase pathway. NTN and GDNF also caused sustained activation of Ret and the mitogen-activated protein kinase pathway in SCG neurons. Finally, both NTN and GDNF activated the phosphatidylinositol 3-kinase pathway in SCG neurons, which may be important for the ability of NTN and GDNF to promote neuronal survival. These data indicate that NTN is a physiologically relevant ligand for the Ret receptor and suggest that NTN may have a critical role in the development of many neuronal populations.
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PMID:Neurturin shares receptors and signal transduction pathways with glial cell line-derived neurotrophic factor in sympathetic neurons. 919 84

The present study was undertaken to determine whether extracellular adenosine 5'-triphosphate (ATP) promotes cellular proliferation of cultured rat renal inner medullary collecting duct cells. Extracellular ATP increased inositol 1,4,5-triphosphate (IP3) production and cellular free calcium concentration - [Ca2+]i - in a dose-dependent manner. ATP also caused a transient cellular acidification. Extracellular ATP activated mitogen-activated protein (MAP) kinase and [3H]thymidine incorporation in a dose-dependent manner. However, such effects were not obtained with adenosine 5'-diphosphate, adenosine monophosphate, and adenosine. In addition, uridine triphosphate, a P(2u) purinergic agonist, increased IP3 production and activated MAP kinase. 2-Methylthio ATP, a P(2y) purinergic agonist, also increased IP3 production, but did not affect the MAP kinase activity. We also examined the effect of arginine vasopressin on cellular growth. Arginine vasopressin did not alter MAP kinase activity and [3H]thymidine incorporation in cultured rat renal inner medullary collecting duct cells. These results indicate that extracellular ATP activates phospholipase C mediated through P(2u) and P(2y) purinergic receptors and promotes cellular proliferation mediated through P(2u) purinergic receptors in renal inner medullary collecting duct cells.
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PMID:Extracellular ATP promotes cellular growth of renal inner medullary collecting duct cells mediated via P2u receptors. 920 Apr 13

CD38 ligation with the specific mAb IB4 induced early and late signaling events in Jurkat T cells, as judged by the transient induction of tyrosine phosphorylation of phospholipase C-gamma1, c-Cbl, zeta-associated protein (ZAP)-70, Shc, extracellular signal-regulated protein kinase-2 (Erk-2) as mitogen-activated protein (MAP) kinase, and increased expression of the activation Ag CD69. In addition, CD38 ligation induced Ras-dependent events such as Erk-2 mobility shift and increased Erk-2 kinase activity. Further evidence that Erk-2 activation is regulated by CD38 ligation was obtained indirectly with the observed induction of Raf-1, Lck, and Sos-1 mobility shifts, processes that are believed to be dependent, at least in part, on MAP kinase activation. Using a protein tyrosine kinase inhibitor, herbimycin A, or a protein kinase C inhibitor, Ro-31-8220, we found that the anti-CD38-induced Erk-2 activation is both protein tyrosine kinase and protein kinase C dependent. CD38 ligation also resulted in increased CD3-zeta tyrosine phosphorylation and its association with ZAP-70. CD38 ligation in a Jurkat Lck-deficient mutant, JCam1, failed to induce substrate tyrosine phosphorylation and activation of Erk-2. These data indicated that in Jurkat T cells, CD38 receptor triggering results in Lck-regulated activation of both Raf-1/MAP kinase and CD3-zeta/ZAP-70/phospholipase C-gamma1 signaling pathways.
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PMID:CD38 ligation results in activation of the Raf-1/mitogen-activated protein kinase and the CD3-zeta/zeta-associated protein-70 signaling pathways in Jurkat T lymphocytes. 920 Apr 55

Carbachol and 5'-(N-ethylcarboxamido)-adenosine (NECA), stimulants of G protein-coupled receptors, induce MAP kinase activation in the muscarinic ml receptor-transfected mast cell line, RBL-2H3 (ml) cells. The phospholipase C inhibitor neomycin and the phosphatidate phosphohydrolase inhibitor propranolol augmented MAP kinase activation induced by carbachol and NECA without affecting the antigen-induced MAP kinase activation. Furthermore, the duration of MAP kinase activation induced by carbachol or NECA was also prolonged by neomycin and propranolol. The specific protein kinase C inhibitor Ro 31-8425 enhanced the carbachol- or NECA-induced MAP kinase activation. These findings suggest that the MAP kinase activation mediated by the G protein-coupled receptors is negatively regulated by diacylglycerol and activated protein kinase C(s).
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PMID:Negative regulation of MAP kinase by diacylglycerol-dependent mechanisms via G protein-coupled receptors in rat basophilic RBL-2H3 (ml) cells. 921 34

Zooxanthellatoxin-A (ZT-A), a polyhydroxypolyene isolated from a symbiotic dinoflagellate Symbiodinium sp., caused thromboxane A2-(TXA2) dependent and genistein-sensitive aggregation in rabbit platelets. Our study was performed to clarify the mechanism of the action of ZT-A. ZT-A caused an increase in tyrosine phosphorylation of 42-kDa protein, which is defined as p42 mitogen-activated protein kinase (MAPK) by immunoprecipitation. Although indomethacin (10 microM) completely inhibited ZT-A-induced TXB2 release, it partially inhibited the MAPK activation. The remained MAPK activation was completely inhibited by genistein (50 microM). Genistein (50 microM), by itself, abolished TXB2 release induced by ZT-A. ZT-A (2 microM) stimulated liberation of arachidonic acid and the subsequent metabolites such as TXB2 and 12-hydroperoxyeicosatetraenoic acid. However, ZT-A-stimulated phosphoinositide hydrolysis which was due to an increase in tyrosine phosphorylation of phospholipase C-(PLC)gamma2. The phosphorylation of PLC-gamma2 and the phosphoinositide hydrolysis were also partially inhibited by indomethacin (10 microM), and were abolished by a combined treatment of indomethacin (10 microM) and genistein (50 microM). ZT-A- (2 microM) induced MAPK activation in the presence of indomethacin (10 microM) was concentration-dependently inhibited by staurosporine and calphostin C, protein kinase C inhibitors. PD98059 (50 microM), a MAPK kinase inhibitor, also inhibited ZT-A-induced TXB2 release. Depletion of external Ca++ abolished ZT-A- (2 microM) induced MAPK activation, phosphoinositide hydrolysis, arachidonic acid liberation and TXB2 release. These results suggest that ZT-A stimulates a protein tyrosine kinase in the presence of external Ca++, resulting in the activation of MAPK probably via PLC-gamma2 and protein kinase C. The MAPK stimulated a liberation of arachidonic acid that is rapidly converted to TXA2. The released TXA2 causes aggregation accompanied with second stimulation of MAPK cascade.
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PMID:Involvement of phospholipase C-gamma2 in activation of mitogen-activated protein kinase and phospholipase A2 by zooxanthellatoxin-A in rabbit platelets. 922 92

The mechanism of Raf-1 activation by platelet-derived growth factor (PDGF) is poorly defined. We previously reported that, in Rat-1 fibroblasts, PDGF activates a phosphatidylcholine-specific phospholipase C (PC-PLC) and that the product, diacylglycerol, somehow activates protein kinase C-zeta (PKC-zeta). Both PC-PLC and PKC-zeta activities were required for PDGF activation of mitogen-activated protein kinase (MAPK). Now we report that MAPK activation by exogenous PC-PLC depends on Raf-1 activation. PKC-zeta co-immunoprecipitates with, phoshorylates and activates Raf-1, suggesting that in the PDGF- and PC-PLC-activated MAPK pathway, PKC-zeta operates in a signalling complex as a direct activator of Raf-1.
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PMID:Platelet-derived growth factor activation of mitogen-activated protein kinase depends on the sequential activation of phosphatidylcholine-specific phospholipase C, protein kinase C-zeta and Raf-1. 923 Jan 6

The proliferative effects of gastrin on normal and neoplastic gastro-intestinal tissues have been shown to be mediated by the gastrin/CCKB (G/CCKB) G-protein-coupled receptors. We have recently reported that gastrin stimulates the tyrosine phosphorylation of Shc proteins and their subsequent association with the Grb2/Sos complex, leading to mitogen-activated protein kinase (MAPK) activation, a pathway known to play an important role in cell proliferation. We undertook the present study to characterize the signalling pathways used by this receptor to mediate the activation of the Shc/Grb2 complex. Since G/CCKB receptor occupancy leads to the activation of the phospholipase C (PLC)/protein kinase C (PKC) pathway, we examined whether PKC stimulation and Ca2+ mobilization contribute to the phosphorylation of Shc proteins and their association with Grb2 in response to gastrin. Our results indicate that Shc proteins are tyrosine phosphorylated and associate with Grb2 in response to phorbol esters, suggesting that activation of PKC is a potential signalling pathway leading to activation of the Shc/Grb2 complex. Inhibition of PKC by GF109203X completely blocked the effect of PMA on Shc tyrosine phosphorylation and its subsequent association with Grb2, but had a partial inhibitory effect on the response to gastrin. Depletion of the intracellular Ca2+ pools by treatment with thapsigargin blocked the increase in intracellular free calcium concentration induced by gastrin and diminished the ability of the peptide to stimulate Shc phosphorylation and recruitment of Grb2. In addition, removal of extracellular Ca2+ partially inhibited the effect of gastrin on Shc phosphorylation as well as its association with Grb2, indicating that the effects of gastrin are also mediated by Ca2+-dependent mechanisms. Furthermore, we show that blockage of the two major early signals generated by activation of PLC, which induced the activation of the Shc/Grb2 complex, also blocked gastrin-induced MAPK activation.
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PMID:Ca2+ and protein kinase C-dependent mechanisms involved in gastrin-induced Shc/Grb2 complex formation and P44-mitogen-activated protein kinase activation. 923 Jan 17

In response to insulin-like growth factor-I (IGF-I), neonatal rat cardiac myocytes exhibit a hypertrophic response. The elucidation of the IGF-I signal transduction system in these cells remains unknown. We show here that cardiac myocytes present a single class of high affinity receptors (12,446 +/- 3,669 binding sites/cell) with a dissociation constant of 0.36 +/- 0.10 nM. Two different beta-subunits of IGF-I receptor were detected, and their autophosphorylation was followed by increases in the phosphotyrosine content of extracellular signal-regulated kinases (ERKs), insulin receptor substrate 1, phospholipase C-gamma1, and phosphatidylinositol 3-kinase. IGF-I transiently activates c-Raf in cultured neonatal cardiac myocytes, whereas A-raf is activated much less than c-Raf. Two peaks of ERK activity (ERK1 and ERK2) were resolved in cardiac myocytes treated with IGF-I by fast protein liquid chromatography, both being stimulated by IGF-I (with EC50 values for the stimulation of ERK1 and ERK2 by IGF-I of 0.10 and 0. 12 nM, respectively). Maximal activation of ERK2 (12-fold) and ERK1 (8.3-fold) activities was attained after a 5-min exposure to IGF-I. Maximal activation of p90 S6 kinase by IGF-I was achieved after 10 min, and then the activity decreased slowly. Interestingly, IGF-I stimulates incorporation of [3H]phenylalanine (1.6-fold) without any effect on [3H]thymidine incorporation. These data suggest that IGF-I activates multiple signal transduction pathways in cardiac myocytes some of which may be relevant to the hypertrophic response of the heart.
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PMID:Insulin-like growth factor-I rapidly activates multiple signal transduction pathways in cultured rat cardiac myocytes. 923

Many receptors that couple to heterotrimeric guanine-nucleotide binding proteins (G proteins) have been shown to mediate rapid activation of the mitogen-activated protein kinases Erk1 and Erk2. In different cell types, the signaling pathways employed appear to be a function of the available repertoire of receptors, G proteins, and effectors. In HEK-293 cells, stimulation of either alpha1B- or alpha2A-adrenergic receptors (ARs) leads to rapid 5-10-fold increases in Erk1/2 phosphorylation. Phosphorylation of Erk1/2 in response to stimulation of the alpha2A-AR is effectively attenuated by pretreatment with pertussis toxin or by coexpression of a Gbetagamma subunit complex sequestrant peptide (betaARK1ct) and dominant-negative mutants of Ras (N17-Ras), mSOS1 (SOS-Pro), and Raf (DeltaN-Raf). Erk1/2 phosphorylation in response to alpha1B-AR stimulation is also attenuated by coexpression of N17-Ras, SOS-Pro, or DeltaN-Raf, but not by coexpression of betaARK1ct or by pretreatment with pertussis toxin. The alpha1B- and alpha2A-AR signals are both blocked by phospholipase C inhibition, intracellular Ca2+ chelation, and inhibitors of protein-tyrosine kinases. Overexpression of a dominant-negative mutant of c-Src or of the negative regulator of c-Src function, Csk, results in attenuation of the alpha1B-AR- and alpha2A-AR-mediated Erk1/2 signals. Chemical inhibitors of calmodulin, but not of PKC, and overexpression of a dominant-negative mutant of the protein-tyrosine kinase Pyk2 also attenuate mitogen-activated protein kinase phosphorylation after both alpha1B- and alpha2A-AR stimulation. Erk1/2 activation, then, proceeds via a common Ras-, calcium-, and tyrosine kinase-dependent pathway for both Gi- and Gq/11-coupled receptors. These results indicate that in HEK-293 cells, the Gbetagamma subunit-mediated alpha2A-AR- and the Galphaq/11-mediated alpha1B-AR-coupled Erk1/2 activation pathways converge at the level of phospholipase C. These data suggest that calcium-calmodulin plays a central role in the calcium-dependent regulation of tyrosine phosphorylation by G protein-coupled receptors in some systems.
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PMID:Ras-dependent mitogen-activated protein kinase activation by G protein-coupled receptors. Convergence of Gi- and Gq-mediated pathways on calcium/calmodulin, Pyk2, and Src kinase. 923 1

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