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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 proliferation of the bronchial epithelium and tumors associated with this tissue is controlled by various growth factors. The main factor is Gastrin Releasing Peptide (GRP), the human counterpart of the amphibian bombesin. These neuropeptides also act as neuromediators and gut hormones. All peptides of this family share a conserved C terminal sequence which is required for biological activity. The determination of this sequence has provided the basis for the design of specific agonist and antagonist peptides and for the generation of monoclonal antibodies (Mab). GRP interacts with a receptor coupled to a G protein and the signalling process leads to the activation of
phospholipase C
and kinases, and the mobilization of calcium. GRP promotes the proliferation of foetal and adult bronchial epithelium and of
small cell lung cancer
(
SCLC
) cells. GRP is also an autocrine growth factor for some
SCLC
cell lines. The growth of these lines is reduced in vitro and in vivo by MAb and specific antagonists. Hyperplasia of GRP producing cells has been shown in various lung diseases in adults and children. Pharmacological data on GRP suggest that its antagonists could be used in the treatment of
SCLC
(in addition to chemotherapy) and of interstitial lung disease. The cloning of the GRP receptor should facilitate the design of specific and potent antagonists of the peptide.
...
PMID:[The role of gastrin releasing peptide as a lung growth factor]. 156 25
Established human lung cancer exhibits a complex pattern of genetic changes as well as several distinct autocrine growth factor loops for regulatory peptides. The best studied example is that of gastrin-releasing peptide (GRP), the mammalian homolog of the amphibian bombesin. It is produced by up to 70% of small cell lung cancers and 10-20% of non-small cell lung cancers. GRP stimulates the growth of normal bronchial epithelium as well as that of
small cell lung cancer
, and its blockade with the use of antibodies or synthetic antagonists inhibits the growth of these tumors. Study of its molecular biology has revealed a complex pattern of mRNA processing which has lead to the recent isolation of a novel family of peptides termed gastrin-releasing peptide gene-associated peptides (GGAPs), present in normal and malignant human tissues. Additional efforts have been directed at characterizing the GRP receptor as well as its intracellular signaling pathways which have been reported both as G protein
phospholipase C
coupled events as well as activation of a membrane associated tyrosine kinase. In view of its expression in normal bronchial epithelium and its mitogenic effects on this tissue, GRP appears to play a central role in the early events of pulmonary carcinogenesis.
...
PMID:Gastrin-releasing peptide (GRP, mammalian bombesin) in the pathogenesis of lung cancer. 249 Dec 57
Bombesin (BBS) and its mammalian equivalent, gastrin-releasing peptide (GRP), exhibit diverse biological functions, including that of a neurotransmitter, a regulator of gastrointestinal hormone release, and a trophic factor for various normal and neoplastic tissues. Bombesin stimulates the growth of normal cells of the stomach, pancreas, and bronchial epithelium as well as cells in breast cancer, gastrinoma, and
small cell lung cancer
. The purpose of this study was to determine whether BBS regulates the growth of a human gastric cancer cell line (SIIA) in vitro, and if so, to examine the mechanisms of signal-transduction that are involved. We found that BBS stimulated the growth of SIIA cells in vitro. The GRP receptor antagonists, BIM 26189 and BIM 26226, had no effect on growth of SIIA cells. Although these antagonists blocked the BBS-induced increase of [Ca2+]i, they failed to block the growth-stimulatory effect of BBS. BBS stimulated intracellular tyrosine phosphorylation of multiple proteins, with a predominant protein of apparent molecular weight of 125 kDa. Inhibition of intracellular tyrosine kinases by tyrphostin blocked the growth-stimulatory effect of BBS on SIIA cells. These results indicate that BBS exerts its trophic effect on SIIA cells through a receptor(s) linked to tyrosine kinase pathway, but not to the
phospholipase C
(
PLC
) pathway.
...
PMID:Bombesin stimulates the in vitro growth of a human gastric cancer cell line. 796 32
Recent studies suggest that in some tissues GRP receptor activation can both stimulate
phospholipase C
and the adenylate cyclase pathway and that activation of the latter pathway may be important in mediating some of its well-described growth effects. However, other studies suggest GRP-R may not be coupled to adenylate cyclase. To investigate this possibility, in the present study we determined the coupling of the GRP receptors to each pathway in mouse, rat, and guinea pig pancreatic acini and compared it to that in mouse Swiss 3T3 cells and human
SCLC
cells, all of which possess well-characterized GRP receptors. Moreover, we tested the effect of PKC activation on the ability of GRP-related peptides to increase cAMP accumulation in these tissues. Changes in cAMP levels were determined with or without IBMX present, with or without forskolin, or both to amplify small increases in cAMP. In mouse, rat and guinea pig pancreatic acini, murine Swiss 3T3 cells and human
SCLC
cells, GRP-related peptides caused a 600%, 500%, 250%, 300% and 60% increase, respectively, in [3H]IP with 1-3 nM causing a half-maximal effect. In murine Swiss 3T3 cells, IBMX, forskolin, and IBMX plus forskolin caused a 300%, 3500% and 10500% increase in cAMP, respectively. GRP-related peptides and VIP caused an additional 70% increase in cAMP with GRP causing a half-maximal (EC50) increase in cAMP at 2.1 +/- 0.5 nM, which was not significantly different from the EC50 of 3.1 +/- 0.9 nM for increasing [3H]IP in these cells. GRP-related peptides did not stimulate increases in cAMP in mouse, rat or guinea pig pancreatic acini or in
SCLC
cells either alone, with IBMX or forskolin or both. However, in pancreatic acini IBMX, forskolin or both increased cAMP 3 to 8-, 10 to 500-, and 100 to 1000-fold increase and the addition of VIP caused an additional 20-, 2-, and 3-fold increase in cAMP in the different species. In mouse pancreatic acini with TPA alone or IBMX plus TPA, neither bombesin nor GRP increased cAMP. Furthermore, in mouse pancreatic acini, neither TPA nor TPA plus IBMX altered basal or VIP-stimulated increases in cAMP. In mouse Swiss 3T3 cells TPA significantly increased cAMP stimulated by Bn, GRP or VIP. These results demonstrated that GRP receptor activation in normal tissues from three different species and a human tumoral cell line do not result in adenylate cyclase activation, whereas in Swiss 3T3 cells it causes such activation. The results suggest that the difference in coupling to adenylate cyclase is likely at least partially due to a difference in coupling to an adenylate cyclase subtype whose activation is regulated by PKC. Therefore, the possible growth effects mediated by this receptor in different embryonic or tumoral cells through activation of adenylate cyclase are not likely to be an important intracellular pathway for these effects in normal tissues.
...
PMID:The gastrin-releasing peptide receptor is differentially coupled to adenylate cyclase and phospholipase C in different tissues. 919 77
Transformed growth of human
small cell lung cancer
(
SCLC
) is mediated by autocrine signaling through multiple G protein-coupled neuropeptide receptors. To define the role of Gq and its effector, phospholipase Cbeta (PLCbeta), in
SCLC
growth, we expressed a COOH-terminal fragment of PLCbeta1 (PLCbetaCT) that is catalytically inactive and is predicted to behave as a competitive inhibitor of Gq signaling. Using endogenous muscarinic receptors as indicators of Gq-coupled receptor signaling status, we observed that stable expression of PLCbetaCT in NCI-H345
SCLC
cells significantly inhibited muscarinic receptor-mediated
phospholipase C
activation and intracellular Ca2+ mobilization. In addition, PLCbetaCT expression reduced the basal activity of protein kinase C as well as the receptor-stimulated activity of the extracellular signal-regulated kinases, consistent with the sequential requirement for Gq, PLCbeta, and protein kinase C in the regulation of the extracellular signal-regulated kinases by neuropeptide and muscarinic receptors in
SCLC
. By contrast, muscarinic agonist stimulation of the c-Jun NH2-terminal kinases was not inhibited in
SCLC
cells expressing PLCbetaCT, indicating that other G proteins such as the G12,13 family members mediate c-Jun NH2-terminal kinase activation by neuropeptides and muscarinic agonists. Finally, soft agar colony formation by the
SCLC
cells expressing PLCbetaCT, but not growth in suspension culture, was markedly reduced, indicating that signaling through Gq and PLCbeta by autocrine-signaling neuropeptide receptors is a dominant pathway involved in the transformed growth of
SCLC
.
...
PMID:Expression of catalytically inactive phospholipase Cbeta disrupts phospholipase Cbeta and mitogen-activated protein kinase signaling and inhibits small cell lung cancer growth. 950 Apr 49
Neuropeptides like galanin produced and released by
small cell lung cancer
(
SCLC
) cells are considered principal mitogens in these tumors. We identified the galanin receptor type 2 (GALR2) as the only galanin receptor expressed in H69 and H510 cells. Photoaffinity labeling of G proteins in H69 cell membranes revealed that GALR2 activates G proteins of three subfamilies: G(q), G(i), and G(12). In H69 cells, galanin-induced Ca2+ mobilization was pertussis toxin-insensitive. While phorbol ester-induced extracellular signal-regulated kinase (ERK) activation required protein kinase C (PKC) activity, preincubation of H69 cells with the PKC-inhibitor GF109203X had no effect on galanin-dependent ERK activity. A rise of the intracellular calcium concentration was necessary and sufficient to mediate galanin-induced ERK activation. In support of G(i) coupling, stimulation of GALR2 expressed in HEK293 cells inhibited isoproterenol-induced cAMP accumulation and raised cAMP levels in COS-7 cells when coexpressed with a chimeric G alpha(S)-G alpha(i) protein In H69 cells, galanin activated the monomeric GTPase RhoA and induced stress fiber formation in Swiss 3T3 cells expressing GALR2. Thus, we provide the first direct evidence that in
SCLC
the mitogenic neuropeptide galanin, interacting with GALR2, simultaneously activates multiple classes of G proteins and signals through the G(q)
phospholipase C
/calcium sequence and a G(12)/Rho pathway. Oncogene (2000) 19, 4199 - 4209
...
PMID:The galanin receptor type 2 initiates multiple signaling pathways in small cell lung cancer cells by coupling to G(q), G(i) and G(12) proteins. 1098 May 93
Nicotine is not only a major component in tobacco but is also a survival agonist that inhibits apoptosis induced by diverse stimuli including chemotherapeutic drugs. However, the intracellular mechanism(s) involved in nicotine suppression of apoptosis is unclear. Bcl2 is a potent antiapoptotic protein and tumor promotor that is expressed in both
small cell lung cancer
(
SCLC
) and non-small cell lung cancer (NSCLC) cells. It is possible that nicotine may regulate Bcl2 to stimulate cell survival. Here we report that nicotine can induce Bcl2 phosphorylation exclusively at the serine 70 site in association with prolonged survival of
SCLC
H82 cells expressing wild-type but not the phosphorylation-deficient S70A mutant Bcl2 after treatment with chemotherapeutic agents (i.e. cisplatin or VP-16). Nicotine induces activation of PKC alpha and the MAPKs ERK1 and ERK2, which are physiological Bcl2 kinases. Furthermore, ET-18-OCH3, a specific
phospholipase C
(
PLC
) inhibitor, blocks nicotine-stimulated Bcl2 phosphorylation and promotes apoptosis, suggesting that
PLC
may be involved in nicotine activation of Bcl2 kinases. Using a genetic approach, the gain-of-function S70E mutant, which mimics Ser(70) site phosphorylation in the flexible loop domain, potently enhances chemoresistance in
SCLC
cells. Thus, nicotine-induced cell survival results, at least in part, from a mechanism that involves Bcl2 phosphorylation. Therefore, novel therapeutic strategies for lung cancer in which Bcl2 is expressed may be used to abrogate the anti-apoptotic activity of Bcl2 by inhibiting multiple upstream nicotine-activated pathways.
...
PMID:A functional role for nicotine in Bcl2 phosphorylation and suppression of apoptosis. 1242 19
Although amidated forms of gastrin-releasing peptide (GRP) have been identified as autocrine growth factors in
small cell lung cancer
, their role in the development and progression of colorectal carcinoma is less clear. In addition, the biological activity of non-amidated gastrin-releasing peptide has not been investigated in colorectal carcinoma cells. We therefore investigated the effect of bombesin (a homologue of gastrin-releasing peptide) on proliferation, migration and inositol phosphate production in the human colorectal carcinoma cell line DLD-1, and determined the ability of gastrin-releasing peptide receptor antagonists to inhibit these effects. We also compared the biological activities of amidated and non-amidated GRP in the same assays. Treatment with either bombesin, or amidated or non-amidated GRP resulted in significant increase in proliferation, and in migration in a wound-healing assay. Both the mitogenic and migratory effects of amidated and non-amidated forms were inhibited by the GRP receptor antagonist [D-Phe(6), Leu-NHet(13), des-Met(14)]-bombesin(6-13). The presence of GRP receptor mRNA and GRP binding sites in three colorectal carcinoma cell lines was demonstrated by RT-PCR and by binding of radiolabelled bombesin, respectively. Transfection of DLD-1 cells with a dominant negative phosphatidylinositol 3-kinase did not affect bombesin-stimulated cell proliferation, but inhibited bombesin-stimulated cell migration. Bombesin and GRPgly activated
phospholipase C
, mitogen-activated protein kinase and focal adhesion kinase. We conclude that both amidated and non-amidated forms of gastrin-releasing peptide accelerate proliferation and migration of DLD-1 human colorectal carcinoma cells via the gastrin-releasing peptide receptor, but that phosphatidylinositol 3-kinase is only involved in the cell migration signalling pathway. Our results suggest a potential role for gastrin-releasing peptide receptor antagonists in the management of colorectal carcinoma.
...
PMID:Stimulation of proliferation and migration of a colorectal cancer cell line by amidated and glycine-extended gastrin-releasing peptide via the same receptor. 1549 3
