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)

Taurodeoxycholic acid (TDC) stimulates Cl(-) transport in adult (AD), but not weanling (WN) and newborn (NB), rabbit colonic epithelial cells (colonocytes). The present study demonstrates that stimuli like neurotensin (NT) are also age specific and identifies the age-dependent signaling step. Bile acid actions are segment and bile acid specific. Thus although TDC and taurochenodeoxycholate stimulate Cl(-) transport in AD distal but not proximal colon, taurocholate has no effect in either segment. TDC increases intracellular Ca(2+) concentration ([Ca(2+)](i)) in AD, but not in WN and NB, colonocytes. In AD cells, TDC (5 min) action on Cl(-) transport needs intra- but not extracellular Ca(2+). NT, histamine, and bethanechol increase Cl(-) transport and [Ca(2+)](i) in AD, but not WN, distal colonocytes. However, A-23187 increased [Ca(2+)](i) and Cl(-) transport in all age groups, suggesting that Ca(2+)-sensitive Cl(-) transport is present from birth. Study of the proximal steps in Ca(2+) signaling revealed that NT, but not TDC, activates a GTP-binding protein, Galpha(q), in AD and WN cells. In addition, although WN and AD colonocytes had similar levels of phosphatidylinositol 4,5-bisphosphate, NT and TDC increased 1,4,5-inositol trisphosphate content only in AD cells. Nonresponsiveness of WN cells to Ca(2+)-dependent stimuli, therefore, is due to the absence of measurable phospholipase C activity. Thus delays in Ca(2+) signaling afford a crucial protective mechanism to meet the changing demands of the developing colon.
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PMID:Differences in Ca(2+) signaling underlie age-specific effects of secretagogues on colonic Cl(-) transport. 1117 85

Folliculo-stellate cells of the anterior pituitary are thought to modulate pituitary hormone secretion through a paracrine mechanism. Angiotensin II and pituitary adenylate cyclase-activating polypeptide (PACAP) have previously been shown to increase the intracellular Ca2+ concentration ([Ca2+]i) of these cells. In the present study, we examined the effects of various peptides such as bradykinin, angiotensin II, endothelin-1, PACAP, galanin and neurotensin by Ca2+-imaging of folliculo-stellate cells in primary culture. Bradykinin and angiotensin II increased [Ca2+]i in folliculo-stellate cells. Both responses were completely suppressed by thapsigargin and were significantly suppressed by the phospholipase C inhibitor, U-73122. Ryanodine did not significantly modify the responses. A B2 antagonist and angiotensin II receptor antagonist inhibited the response induced by bradykinin and angiotensin II, respectively. Endothelin-1 and PACAP increased [Ca2+]i in fewer than 50% of folliculo-stellate cells but galanin and neurotensin did not influence [Ca2+]i in any of the folliculo-stellate cells tested. These results indicate that bradykinin and angiotensin II increase [Ca2+]i in folliculo-stellate cells by activating phospholipase C through B2 receptor and AT1 receptor, respectively, and that endothelin-1 and PACAP also increase [Ca2+]i in some folliculo-stellate cells.
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PMID:Bradykinin and angiotensin II-induced [Ca2+]i rise in cultured rat pituitary folliculo-stellate cells. 1173 52

The suprachiasmatic nuclei (SCN) of the hypothalamus house the main mammalian circadian pacemaker. Cell bodies in the rat SCN contain the neuropeptide neurotensin (NT), and two NT receptor types, NTS1 and nts2. Because the role of NT in the circadian rhythm processes is unknown, we studied the phase-shifting effects of NT on the firing rate rhythm of rat SCN neurons in vitro. Additionally, the NT receptor antagonists SR142948a and SR48692 were used to try and block any NT-induced phase shifts. To elucidate the second messenger pathway responsible for mediating the phase-resetting actions of NT, we utilized the phospholipase C (PLC) and protein kinase A (PKA) inhibitors U-73122 and KT5720, respectively. Application of NT during the projected day resulted in a large advance in the time of peak in FRR, whereas treatments during the projected night had no effect. Both NT receptor antagonists blocked the NT-induced phase shifts, as did the PLC inhibitor U-73122. The PKA inhibitor KT5720 had no influence on the magnitude of the phase shift caused by NT during the middle of the projected day. These results provide the first evidence that NT may play a role in regulating the rat circadian pacemaker, using NTS1 and nts2 receptors presumably coupled to PLC.
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PMID:Neurotensin phase-shifts the firing rate rhythm of neurons in the rat suprachiasmatic nuclei in vitro. 1216 14

Many previous reports suggested that relatively high concentrations of neurotensin were required to exert its effects on neurotransmitter secretion. The neurotensin binding sites, which recognize high concentrations of neurotensin, were characterized in rat pheochromocytoma (PC12) cells. When PC12 cells were treated with neurotensin, [3H]norepinephrine secretion and elevation of cytosolic calcium were evoked at EC(50) values of 59+/-4 and 37+/-7 microM, respectively. Both calcium release and inositol 1,4,5-trisphosphate (IP(3)) production induced by neurotensin suggested involvement of phospholipase C. Experiments with simultaneous or sequential treatment with neurotensin and bradykinin suggested that neurotensin and bradykinin act on the same binding sites. Furthermore, both inhibition of bradykinin- and neurotensin-induced calcium rises by bradykinin receptor antagonists with similar IC(50) values and receptor binding analysis using [3H]bradykinin confirmed that neurotensin directly binds to B2 bradykinin receptors. The data suggest that neurotensin binds and activates the B2 bradykinin receptors.
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PMID:Activation of B2 bradykinin receptors by neurotensin. 1263 15

Neurotensin (NT) is a potent stimulator of electrical and secretory activities in frog pituitary melanotrophs. The aim of the present study was to characterize the transduction pathways associated with activation of NT receptors in frog melanotrophs. Application of synthetic frog NT (fNT) increased the cytosolic calcium concentration ([Ca2+]c) and stimulated the formation of inositol trisphosphate (IP3). The phospholipase C inhibitor U-73122 blocked the electrophysiological and secretory effects of fNT. Intracellular application of the IP3 receptor antagonist heparin abolished fNT-induced electrical activity. Suppression of Ca2+ in the incubation medium markedly reduced the effect of NT on [Ca2+]c, firing rate, and alpha-melanocyte-stimulating hormone (alphaMSH) secretion. Similarly, the inhibitor of IP3-induced Ca2+ release and store-operated Ca2+ channels, 2-Aminoethoxydiphenylborane, and the nonselective Ca2+ channel blockers GdCl3 and NiCl2, attenuated the [Ca2+]c increase and the electrical and secretory responses evoked by fNT. Coapplication of the L- and N-type Ca2+ channel blockers nifedipine and omega-CgTx GVIA reduced the effects of fNT on action potential discharge, [Ca2+]c increase, and alphaMSH release. The protein kinase C (PKC) inhibitors, PKC-(19-31) and chelerythrine, reduced the electrophysiological and secretory responses induced by iterative applications of fNT. Collectively, these results demonstrate that, in frog melanotrophs, NT stimulates the phospholipase C/PKC pathway and increases [Ca2+]c. Both Ca2+ release from intracellular stores and Ca2+ influx through L- and N-type Ca2+ channels are involved in fNT-induced alphaMSH secretion. In addition, the present data indicate that PKC plays a crucial role in maintenance of the responsiveness of melanotrophs to NT.
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PMID:Neurotensin stimulates both calcium mobilization from inositol trisphosphate-sensitive intracellular stores and calcium influx through membrane channels in frog pituitary melanotrophs. 1450 May 81

Neurotensin (NT) stimulates Ca2+ release and Ca2+ influx in many cells. Its contractile effects in smooth muscle are inhibited by removal of Ca2+ and by Ca2+ channel blockers (CCBs). To better understand NT signaling in prostate cancer PC3 cells, blockers of voltage-gated and store-operated Ca2+ channels (VGCC and SOCC) were tested for effects on NT-binding and signaling. Eight chemical types of agents, including VGCC-blocker nifedipine and SOCC-blocker SKF-96365 (1-[beta-[3-(4-methoxyphenyl)-propoxy]-4-methoxyphenyl]-1H-imidazole), enhanced cellular NT binding up to 3-fold, while inhibiting (by congruent with 70%) NT-induced inositol phosphate (IP) formation. The ability to enhance NT binding correlated with the ability to inhibit NT-induced IP formation, and both effects were relatively specific for NT. Although cellular binding for beta2-adrenergic, V1a-vasopressin, and epidermal growth factor receptors was not enhanced by these drugs, bombesin receptor binding was increased approximately equal to 19% and bombesin-induced IP formation was inhibited approximately equal to 15%. One difference was that the effect on NT binding was Ca2+-independent, whereas the effect on IP formation was Ca2+-dependent (in part). The Ca2+-dependent part of the IP response seemed to involve SOCC-mediated Ca2+ influx to activate phospholipase C (PLC)delta, while the Ca2+-independent part probably involved PLCbeta. Photoaffinity labeling of the NT receptor NTR1 was enhanced in CCB-treated cells. NTR1 affinity was increased but NTR1 number and internalization were unchanged. Since CCBs did not alter NT binding to isolated cell membranes, the effects in live cells were indirect. These results suggest that CCBs exert two effects: 1) they inhibit NT-induced IP formation, perhaps by preventing Ca2+ influx-dependent activation of PLCdelta; and 2) they enhance NTR1 affinity by an unexplained Ca2+-independent mechanism.
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PMID:Ca2+ channel blockers enhance neurotensin (NT) binding and inhibit NT-induced inositol phosphate formation in prostate cancer PC3 cells. 1457 Aug 23

Neurotensin (NT) increases neurotransmission within the mesolimbic dopamine system by enhancing the firing rate of dopaminergic (DAergic) neurons and by acting at the nerve terminal level. The signal transduction pathways involved in these effects have not been characterized, but NT receptors are coupled to the phospholipase C pathway and Ca(2+) mobilization. However, an enhancement of intracellular Ca(2+) concentration ([Ca(2+)](i)) evoked by NT in DAergic neurons has yet to be demonstrated. Furthermore, the hypothesis that the excitatory effects of NT in DAergic neurons are Ca(2+) dependent is currently untested. In whole-cell recording experiments, DAergic neurons in culture were identified by their selective ability to express a cell-specific green fluorescent protein reporter construct. These experiments confirmed that NT increases firing rate in cultured DAergic neurons. This effect was Ca(2+) dependent because it was blocked by intracellular dialysis with BAPTA. Using Ca(2+) imaging, we showed that NT caused a rapid increase in [Ca(2+)](i) in DAergic neurons. Most of the Ca(2+) originated from the extracellular medium. NT-induced excitation and Ca(2+) influx were blocked by SR48692, an antagonist of the type 1 NT receptor. Blocking IP(3) receptors using heparin prevented the excitatory effect of NT. Moreover, Zn(2+) and SKF96365 both blocked the excitatory effect of NT, suggesting that nonselective cationic conductances are involved. Finally, although NT can also induce a rise in [Ca(2+)](i) in astrocytes, we find that NT-evoked excitation of DAergic neurons can occur independently of astrocyte activation.
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PMID:Role of calcium in neurotensin-evoked enhancement in firing in mesencephalic dopamine neurons. 1501 32

Neurotensin has been shown to influence growth in a number of cancerous and non-cancerous cells and to enhance the proliferative effects of growth factors without itself inducing proliferation. Here we show that neurotensin potentiates the proliferative effects of insulin on IMR90 human fibroblasts in a concentration and neurotensin receptor type 1-dependent manner. This potentiating effect of neurotensin was blocked by inhibitors of phospholipase C and protein kinase C, was accompanied by an increase in the level of soluble inositol phosphates and did not involve an autocrine factor. These results show that neurotensin can enhance insulin-dependent proliferation of human fibroblasts and suggest a possible role for neurotensin in tissue growth and repair.
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PMID:The effect of neurotensin on insulin-induced proliferation of human fibroblasts. 1524 76

Calcium-dependent secretagogues, such as neurotensin, stimulate age-dependent chloride transport in rabbit distal colonocytes, but their action in the proximal colon is unknown. This study examines the effect of neurotensin on chloride transport and its mechanism of action in rabbit proximal colonocytes. Our results show that neurotensin stimulates chloride transport only in adult, and not weanling or newborn, colonocytes. The calcium ionophore A23187 shows similar age dependence, while PGE2, which acts via cAMP, stimulates transport in all ages. The roles of phospholipase C, tyrosine kinases, and src tyrosine kinases were examined using specific inhibitors, i.e., U73122, genistein, and PP2, respectively. All three agents significantly inhibit neurotensin-stimulated chloride transport in adult colonocytes. In conclusion, this study reports for the first time that neurotensin stimulates chloride secretion in rabbit proximal colonocytes. This is also the first demonstration that neurotensin action exhibits age dependence and is dependent on phospholipase C and src tyrosine kinase activity.
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PMID:Phospholipase C and src tyrosine kinases mediate neurotensin-stimulated Cl- secretion in rabbit proximal colon. 1538 63

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

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