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

The growth functions of the heterotrimeric G protein G(o) was studied by expression in heterologous systems. The alpha-subunit of G(o) was mutated to convert Gln-205 to Leu (Q205L). Mutation of this conserved glutamine residue in G protein alpha-subunits is thought to persistently activate G proteins by inhibiting their GTPase activity. The wild type and mutant G(o)-alpha subunits were expressed in NIH-3T3 fibroblasts. These cells do not contain any measurable amounts of G(o)-alpha mRNA or protein. Transfection of wild type or Q205LG(o)-alpha subunit cDNA under the control of a dexamethasone-inducible promoter results in dexamethasone-dependent transcription of the mRNA and expression of the protein. The Q205LG(o)-alpha, but not wild type G(o)-alpha, stimulates mitogenesis in NIH-3T3 fibroblasts without significantly stimulating phospholipase C activity. Continuous expression of mutant G(o)-alpha induces focus formation, whereas transfections with vector alone or vector containing the native G(o)-alpha cDNA were without significant transforming effect in NIH-3T3 cells. Q205L G(o)-alpha did not induce focus formation in RAT-1 fibroblasts. Q205LG(o)-alpha-transformed NIH-3T3 cells are capable of anchorage-independent growth, as assessed by colony formation in soft agar. Q205LG(o)-alpha transformed cells induced tumors when injected into Nu/Nu mice. These results indicate that mutant G(o)-alpha subunits whose GTPase activity is presumably inhibited can induce the neoplastic transformation of NIH-3T3 cells in a phospholipase C-independent manner.
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PMID:The Q205LGo-alpha subunit expressed in NIH-3T3 cells induces transformation. 142 65

The expression, cellular distribution, and activity of PIP(2)-specific phospholipase C (PLC) in healthy human gastric-mucosa cells have been recently studied in our laboratories and a direct evidence for an almost exclusive expression of PLC beta isoforms, with the exception of PLC beta4, has been provided. These results addressed our attention to possible modification of PLC expression and activity during neoplastic transformation of the human gastric mucosa. In the present article we present results indicating that PLC delta2 is markedly expressed in type II intestinal metaplasia and in the adenocarcinoma whereas traces of other PLC isoforms were sometime detected. Interestingly, we found that type I intestinal metaplasia was in the majority of the cases PLC delta2-negative, but when expressed, this type of metaplasia generally considered as benignant, always evolved toward neoplastic transformation. These results therefore readdress the question of surveillance of the patients with type I intestinal metaplasia and suggest that PLC delta2 expression might be a possible marker of gastric malignant transformation.
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PMID:Phospholipase C delta2 expression characterizes the neoplastic transformation of the human gastric mucosa. 1154 71

The existence of a nuclear polyphosphoinositol metabolism independent from that at the plasma membrane is now widely recognized. Specific changes in the nuclear phosphatidylinositol (Ptdlns) metabolism have been implicated in cell growth, differentiation, and neoplastic transformation. Here we shall review the main features of nuclear inositol lipid signaling through type I IGF receptor, focusing the attention on the role of inositide-specific phospholipase C (PI-PLC) beta1 in cell proliferation and differentiation, given its peculiar localization in the nuclear compartment.
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PMID:Significance of nuclear phospholipase C signaling through type 1 IGF receptor. 1548 15

Gastrointestinal peptides including mammalian bombesin-like peptides, cholecystokinin (CCK), gastrin, and neurotensin stimulate DNA synthesis and cell proliferation in cultured cells and are implicated as growth factors in a number of fundamental processes including development, inflammation, tissue regeneration, and neoplastic transformation. These agonists bind to G protein-coupled receptors (GPCRs) that promote Galpha q-mediated activation of beta isoforms of phospholipase C to produce two second messengers: Inositol (1,4,5) trisphosphate {Ins (1, 4, 5) P3} that mobilises Ca2+ from internal stores, and diacylglycerol that activates the classic and new isoforms of the protein kinase C (PKC) family. PKCs play a critical part in transducing bombesin/gastrin releasing peptide (GRP) receptor signals into activation of protein kinase cascades. Protein kinase D (PKD), a serine/threonine protein kinase with distinct structural and enzymological properties, is activated by phosphorylation in living cells through a new PKC-dependent signal transduction pathway. GPCR agonists including bombesin/GRP induce a rapid and striking activation of PKD by PKC. These results indicate that PKD functions downstream from PKCs and identify a new phosphorylation cascade that is activated by gastrointestinal peptide agonists. The bombesin/GRP GPCR also promotes rapid Rho-dependent assembly of focal adhesions, formation of actin stress fibres and tyrosine phosphorylation of multiple cellular proteins. We identified p125 focal adhesion kinase (FAK), p130 Crk-associated substrate (CAS) and paxillin as prominent targets of gastrointestinal peptide-stimulated tyrosine phosphorylation and developed a model that envisages a G12/Rho-dependent pathway connecting GPCR activation to the tyrosine phosphorylation of these focal adhesion proteins. Separate pathways mediate gastrointestinal peptide stimulation of additional tyrosine kinase pathways including transactivation of Src and epidermal growth factor receptor (EGFR). Tyrosine phosphorylation has a critical role in gastrointestinal peptide-induced cellular migration and cooperates with Gq-stimulated events to promote mitogenesis. The growth-promoting effects of neuropeptides and the elucidation of the signalling pathways that mediate their effects assume an added importance because these agonists and their receptors are increasingly implicated in sustaining the proliferation of clinically aggressive solid tumours including those from lung, pancreas, and colon.
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PMID:Gastrointestinal peptide signalling in health and disease. 1614 98

The existence of a nuclear polyphosphoinositol metabolism, independent from that at the plasma cell membrane, is now widely recognized. Specific changes in the nuclear phosphatidylinositol (PtdIns) metabolism have been implicated in cell growth, differentiation and neoplastic transformation. Here, the main features of nuclear inositol lipid signaling through type I IGF receptor, is reviewed with particular attention to the role of inositide-specific phospholipase C (PI-PLC) beta1 in cell proliferation and differentiation, due to the peculiar localization of this molecule in the nuclear compartment.
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PMID:Nuclear phospholipase C signaling through type 1 IGF receptor and its involvement in cell growth and differentiation. 1615 42

Extracellular acidification accompanies neoplastic transformation of tissues and increases with tumor aggressiveness [1, 2]. The intracellular signaling cascade triggered by this process remains poorly understood and may be linked to recently discovered proton-activated G protein-coupled receptors such as OGR1 and G2A [3, 4]. Here, we report that OGR1 and G2A are expressed in human medulloblastoma tissue and its corresponding neuronal cell line. We show that extracellular acidification activates phospholipase C, IP(3) formation, and subsequent Ca2+ release from thapsigargin-sensitive stores in neurons. The number of responsive cells and the amount of Ca2+ released from stores correlated positively with the extent of extracellular acidification. Ca2+ release recruited the MEK/ERK pathway, providing a mechanistic explanation for how acidification stimulates cell growth. In addition, acidification activated Ca2+-permeable ion channels through a mechanism dependent on phospholipase C but independent of store depletion or a cytoplasmic Ca2+ rise. Hence, extracellular acidification, to levels seen in tumor tissue, activates temporally and spatially distinct pathways that elevate Ca2+ and may be directly relevant for tumor cell biology.
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PMID:Extracellular acidification elicits spatially and temporally distinct Ca2+ signals. 1848 12

Initiation of cell growth and neoplastic transformation frequently involves activation of growth factor receptor-coupled tyrosine kinases and stimulation of the phosphoinositide second messenger system. Altered expression of CD44 variants was reported in several malignant tumor types with possible implications for tumor progression and prognosis. CD44 variant expression was reported to be associated with second messenger activation and differentiation. We therefore investigated the effects of butyrate-induced short-term differentiation on phosphoinositide signaling, phospholipase C and protein kinase C activity and alteration of CD44 variant expression in human HT-29 colon carcinoma cells. HT-29 cells were cultured with sodium butyrate for 6 days. Phosphoinositide turnover was measured by [32P]orthophosphate incorporation and phospholipase C activity by determination of the release of [3H]inositolphosphates from [3H]myoinositol prelabeled cells. Protein kinase C activity was determined by histone III-S phosphorylation, PKC subtype expression by RNase protection analysis, and CD44 variant expression was determined by RT-PCR using variant-specific primers. Treatment of HT-29 human colon carcinoma cells with sodium butyrate caused a dose-dependent inhibition of cell proliferation (IC50, 2.5 mM) with morphologic signs of an enterocytic differentiation following 6 days of treatment. The phosphoinositide turnover as determined by 32P-incorporation under non-equilibrium conditions showed a 30-40% inhibition of labeled phosphoinositides and phosphatidic acid and a dose-dependent inhibition of cholinergically stimulated phospholipase C activity as a secondary event following butyrate-induced enterocytic differentiation. However, long-term incubation of HT-29 cells with phorbol ester or an inhibitor of classical and novel PKC subtypes did not affect cell proliferation. In butyrate-treated HT-29 cells activation of calcium-dependent protein kinase C by cholinergic stimulation or phorbolester treatment induced an increase in membrane-bound cPKC activity, while expression of distinct high- molecular CD44 variant transcripts v3 (670 bp), v5 (940 bp) and v8 (535 bp) were drastically reduced after butyrate pretreatment. Enterocytic differentiation of HT-29 colon carcinoma cells seems to be associated with alterations in phosphoinositide resynthesis, phospholipase C activity and ligand/receptor-induced PKC translocation. The observed reduction of distinct high-molecular CD44v3, v5 and v8 variants following butyrate-induced differentiation indicates an association of specific CD44 variant expression with the malignant phenotype of HT-29 colon cancer cells, thus being possible targets for new diagnostic and therapeutic strategies.
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PMID:Butyrate-induced alterations of phosphoinositide metabolism, protein kinase C activity and reduced CD44 variant expression in HT-29 colon cancer cells. 1936 Mar 23