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)

When expressed into Xenopus oocytes, HLK3 K+ channel (Kv1-3) induced a slowly inactivating voltage-dependent K+ current. We have studied the modulation of this K+ current by co-expressing a cloned 5-HT2 receptor together with HLK3 K+ channel protein. Application of 5-HT caused a long-lasting inhibition of the voltage-gated K+ current. This inhibitory modulation was mimicked by intracellular injection of inositol triphosphate or Ca2+, as well as by incubation with phorbol esters or diacylglycerol analogs. Oocytes pretreatment with staurosporine and EGTA fully prevented 5-HT inhibitory action. Elevation of cAMP and cGMP levels into oocytes did not produce any detectable effect on the current recorded in the absence or the presence of 5-HT. These data suggest that the second messengers generated by phospholipase C activation may be important modulators of HLK3 K+ channels in the immune and the central nervous systems.
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PMID:Regulation of a major cloned voltage-gated K+ channel from human T lymphocytes. 160 23

We have reviewed the literature, which supports an important role for dopamine withdrawal in the regulation of PRL secretion. Concentrations of dopamine in the hypophyseal portal circulation are sufficient to occupy the majority of dopamine receptors (1) and tonically suppress PRL secretion (20-26). Brief escapes from dopaminergic regulation associated with the secretion of PRL have been observed (37-41). Therefore, dopamine regulates secretion of PRL both by occupancy of, as well as dissociation from, specific D2 dopamine receptors. The rapid off rate from its receptor (2) is consistent with signals transmitted through brief decreases in dopamine concentration. The removal of dopamine for 10 min results in increases in intracellular cAMP and presumably activation of protein kinase A (39, 138) as well as activation of phospholipase C (137, 138) and protein kinase C (136). The removal of dopamine results directly in the release of PRL (37-41). Furthermore, the brief removal of dopamine results in the long-term potentiation of the PRL-releasing action of TRH (38-40). The potentiating action of dopamine withdrawal appears to be mediated by the activation of protein kinase A since pretreatment with VIP, a hormone that signals via protein kinase A, also potentiates the action of TRH (39). TRH stimulates PRL release via Ca2+/protein kinase C (177-184). The potentiating action of dopamine removal is selective for the Ca2+/protein kinase C pathway since dopamine removal does not potentiate the PRL-secreting action of VIP (38, 87, 92). The action of TRH is potentiated up to 30 min after the return of dopamine and the suppression of PRL to basal levels (38). In Fig. 10, dopamine dissociation from its receptor or VIP association to its receptor are shown separated by a broken line to indicate that by the time the potentiation of the action of TRH is tested, either dopamine is again occupying its receptor or VIP is no longer present. Therefore, the effect of protein kinase A activation is remembered by the lactotroph. We hypothesize that the responsiveness of the cell to TRH is potentiated by the phosphorylation of proteins by protein kinase A. Two potential substrates for protein kinase A are voltage-dependent Ca2+ channels and protein phosphatase inhibitors that would prolong the action of protein kinase C. When TRH occupies its receptor, intracellular Ca2+ levels are increased first from intracellular stores and subsequently by extracellular Ca2+ influx (187-189). Intracellular Ca2+ is mobilized by increased levels of IP3(128). Extracellular Ca2+ enters the lactotroph via voltage-dependent Ca2+ channels (189, 190).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Dissociation of dopamine from its receptor as a signal in the pleiotropic hypothalamic regulation of prolactin secretion. 161 63

Stimulation of rat pancreatic acinar cells with low concentrations of phosphatidylinositol (PI)-linked secretagogues induces [Ca2+]i oscillations, without measurable changes in the formation of inositol 1,4,5-trisphosphate. Therefore, we tested U73122 a new phospholipase C inhibitor to determine if PI turnover is necessary for the generation of [Ca2+]i oscillations. In acini prelabeled with [3H]inositol, PI hydrolysis on stimulation with either cholecystokinin or carbachol was inhibited dose-dependently by U73122, with a maximal effect seen at 10 microM; the formation of inositol 1,4,5-trisphosphate, measured using a radioreceptor assay, was also similarly inhibited. By contrast secretin- or vasoactive intestinal peptide-stimulated production of cAMP was unaffected by 10 microM U73122. These studies indicate that U73122 is a relatively specific inhibitor of G-protein-mediated phospholipase C activation in pancreatic acini. In fura-2-loaded acini, U73122 inhibited the increases in [Ca2+]i stimulated by these high concentrations of secretagogues which can be demonstrated to elicit PI turnover. The [Ca2+]i signal generated by directly stimulating G-proteins with sodium fluoride was also inhibited by U73122; however, the [Ca2+]i rise induced by thapsigargin was unaffected. These data indicate that the mechanism of inhibition was distal to the occupation of cell surface receptors but did not involve an interference of Ca2+ metabolism in general. When [Ca2+]i oscillations were elicited by low concentrations of cholecystokinin or carbachol, U73122 rapidly inhibited the oscillating [Ca2+]i signal. In contrast, oscillations induced by an analogue of cholecystokinin, JMV-180, which does not stimulate changes in PI metabolism at any concentration, were unaffected. This indicates that cholecystokinin- and carbachol-induced oscillations are probably initiated by small, localized changes in PI metabolism, which are not readily detectable. However, the inability of U73122 to inhibit JMV-180-induced oscillations indicates that PI metabolism may not necessarily be a prerequisite for the generation of [Ca2+]i oscillations.
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PMID:U73122 inhibits Ca2+ oscillations in response to cholecystokinin and carbachol but not to JMV-180 in rat pancreatic acinar cells. 162 84

Studies were performed to identify the receptor that mediates AVP-stimulated phosphoinositide (PI) hydrolysis in cultured rat inner medullary collecting tubule (RIMCT) cells. While the selective V1 receptor agonist [Ho1, Phe2, Orn8] VT has no effect on inositol trisphosphate (IP3) production over the range of 10(-13)-10(-7) M, the selective V2 receptor agonist VDAVP stimulates IP3 production in dose-dependent fashion. Oxytocin stimulates IP3 production in dose-dependent fashion as well. AVP-stimulated phospholipase C activity is not inhibited by the V1 receptor antagonist d(CH2)5Tyr(Me)AVP(10(-7) M) but is eliminated by the V2 receptor antagonist d(CH2)5DTyr(Et)VAVP (10(-7) M). Similarly, the response to oxytocin is eliminated by the V2 receptor antagonist. The selective oxytocin receptor agonist [Thr4, Gly7] oxytocin does not stimulate cAMP production in RIMCT cells but does promote PI hydrolysis. The selective oxytocin receptor antagonist desGlyNH2d(CH2)5[Tyr(Me)-Thr4]OVT (10(-7) M) does not inhibit AVP-stimulated cAMP production but eliminates IP3 production in response to AVP or the V2 receptor agonist VDAVP. These studies demonstrate that AVP or a V2 receptor agonist stimulate PI hydrolysis in cultured RIMCT cells via occupancy of the oxytocin receptor.
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PMID:Vasopressin-stimulated phosphoinositide hydrolysis in cultured rat inner medullary collecting duct cells is mediated by the oxytocin receptor. 164 53

A compilation of literature data and recent experiments led to the following conclusions regarding cyclic adenosine 3':5' monophosphate (cAMP) regulation of gene expression. Several classes of cAMP-induced gene expression can be discriminated by sensitivity to stimulation kinetics. The aggregation-related genes respond only to nanomolar cAMP pulses. The prestalk-related genes respond both to nanomolar pulses and persistent micromolar stimulation. The prespore specific genes respond only to persistent micromolar stimulation. The induction of the aggregation- and prestalk-related genes by nanomolar cAMP pulses may share a common transduction pathway, which does not involve cAMP, while involvement of the inositol 1,4,5-trisphosphate (IP3)/Ca2+ pathway is unlikely. Induction of the expression of prespore and prestalk-related genes by micromolar cAMP stimuli utilizes divergent signal processing mechanisms. cAMP-induced prespore gene expression does not involve cAMP and probably also not cyclic guanosine 3'.5' monophosphate (cGMP) as intracellular intermediate. Involvement of cAMP-induced phospholipase C (PLC) activation in this pathway is suggested by the observation that IP3 and 1,2-diacylglycerol (DAG) can induce prespore gene expression, albeit in a somewhat indirect manner and by the observation that Li+ and Ca2+ antagonists inhibit prespore gene expression. Cyclic AMP induction of prestalk-related gene expression is inhibited by IP3 and DAG and promoted by Li+, and is relatively insensitive to Ca2+ antagonists, which indicates that PLC activation does not mediate prestalk-related gene expression. Neither prespore nor prestalk-related gene expression utilizes the sustained cAMP-induced pHi increase as intracellular intermediate.
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PMID:Control of cAMP-induced gene expression by divergent signal transduction pathways. 164 93

In FRTL-5 thyroid cells, thyrotropin (TSH) stimulates I- efflux in association with phospholipase C activation and Ca2+ mobilization. TSH also stimulates DNA synthesis, accompanied by cAMP accumulation. Significant activation of the phospholipase C-Ca2+ pathway requires 10-100 nM TSH a concentration 10(3) to 10(4) times higher than necessary to stimulate the cAMP pathway. When the P1-purinergic agonist, phenylisopropyladenosine (PIA) is added to the reaction medium, the former pathway is markedly enhanced, whereas the latter pathway is inhibited. As a result, in the presence of PIA, both TSH-induced pathways are activated at similar TSH concentrations. These PIA actions are completely reversed by a prior treatment of cells with islet-activating protein (IAP); pertussis toxin. When adenosine deaminase is added to the reaction medium, TSH-induced cAMP accumulation is significantly enhanced, suggesting an autocrine action of adenosine. In IAP-treated cells, the level of TSH-induced cAMP accumulation reaches that of deaminase-treated control cells, and no further increase is observed when adenosine deaminase is added. We conclude that in the thyroid, either an neural or autocrine adenosine signal, mediated by an IAP-sensitive G-protein, switches TSH signal transduction from the cAMP pathway to the phospholipase C-Ca2+ pathway.
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PMID:Reciprocal modulation of thyrotropin actions by P1-purinergic agonists in FRTL-5 thyroid cells. Inhibition of cAMP pathway and stimulation of phospholipase C-Ca2+ pathway. 164 85

The permeability of gap junctions in cultured striatal astrocytes was investigated by the scrape-loading/dyetransfer technique. Prolonged application of norepinephrine (NE) (10 microM) reduced by half the extent of dye (Lucifer yellow) spread. This effect was linked to the activation of alpha 1-adrenergic receptors since it was mimicked by methoxamine and antagonized by prazosin. The adenosine agonist 2-chloroadenosine (10 microM), which potentiates the NE-evoked activation of phospholipase C (PLC) in striatal astrocytes, also potentiated the NE-evoked closure of gap junctions, the effect being as important as that observed with the uncoupling agent octanol. Measurements of inositol phospholipid turnover performed in identical experimental conditions revealed a close relationship between the extent of PLC activation and the magnitude of the uncoupling process. The effect of NE was mimicked by both phorbol ester and arachidonic acid, suggesting that biochemical events linked to PLC stimulation such as protein kinase C activation and/or eicosanoid production are likely involved in the NE-induced uncoupling. In addition, in the presence of a cAMP phosphodiesterase inhibitor, the stimulation of beta-adrenergic receptors by isoproterenol (10 microM) led to a large increase in cAMP accumulation correlated with an extension of dye diffusion. This observation suggests that junctional permeability could also be controlled by a cAMP-dependent mechanism. Altogether these results indicate that intercellular communication between cultured astrocytes can be regulated by different second messenger pathways as a result of the action of neurotransmitters on their receptors.
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PMID:Adrenergic regulation of intercellular communications between cultured striatal astrocytes from the mouse. 164 24

The authors investigated the effects of endothelin-1 (ET1) on inositol trisphosphate (IP3) production, 1, 2-diacylglycerol (DAG) formation, measured as phosphatidic acid (PA), cAMP formation, and contraction in iris sphincter of different mammalian species. They found that ET1 is a potent agonist for IP3 production, DAG formation, and contraction in rabbit, dog, cat, and pig iris sphincters, and for cAMP formation in all species that were investigated--rabbit, dog, cat, pig, bovine, monkey, and human sphincters. In the bovine model, ET1 induced cAMP formation in a dose-dependent manner, with an EC50 of 28 nM. This is the first report that showed an effect of the peptide on the adenylate cyclase system. In rabbit sphincter, ET1 induced a significant increase in IP3 production by 30 sec and reached a 6-fold level more than control within 1 and 5 min. ET1-stimulated IP3 production is dose dependent with an EC50 of 45 nM, this value is about 100- and 56-fold lower than those we reported for substance P and carbachol, respectively. ET1 also increased 32P labeling of PA more than 6-fold; and in rabbit sphincter, ET1 is a more potent agonist in contracting the sphincter than in contracting the dilator (the EC50 values for sphincter and dilator were 46 and 120 nM, respectively). L-type Ca2+ channels are not involved in IP3- and contraction responses because several blockers of these channels did not affect the ET1-induced responses, implying that in the iris sphincter, ET1 elicits the physiologic response through the G protein activation of phospholipase C and/or adenylate cyclase and not through the activation of voltage-dependent Ca2+ channels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Species differences in the effects of endothelin-1 on myo-inositol trisphosphate accumulation, cyclic AMP formation and contraction of isolated iris sphincter of rabbit and other species. 164 47

In this report, we describe a Jurkat cell variant, termed JCT8, the selection of which is based upon its resistance to cell-growth inhibition mediated by the holotoxin of Vibrio cholerae, cholera toxin (CT). JCT8 cells exhibit normal cAMP production in response to various cAMP inducers, including CT, together with conserved ADP ribosylation in vitro of G-protein Gs alpha by the A subunit of the toxin. However, after a 4-h pretreatment with CT, JCT8 cells have a conserved expression of cell-surface CD3 molecules. These effects are in contrast to those elicited by the toxin in long term PGE2-desensitized Jurkat cells, which remain as sensitive as the wild type to the inhibitory action of CT on cell growth and CD3 cell-surface expression, despite poor responsiveness to CT with regard to cAMP production. In JCT8 cells, Ca2+ mobilization induced via the CD3/TCR is maintained after CT treatment contrasting with its complete suppression in the wild-type and in the PGE2-desensitized cells. However, as in the other cell types, CT still suppresses Ca2+ influx in JCT8 cells. Increase in inositol phosphates by CD3 stimulation of JCT8 cells, including of inositol 1,4,5-triphosphate (I(1,4,5)P3), is only partially antagonized by CT. This suggests either that in JCT8 cells there is a different susceptibility of Ca2+ mobilization and influx to partial inhibition by CT of CD3-triggered phospholipase C (PLC)-induced phosphoinositide hydrolysis or that an additional and PLC-independent suppressive effect of the toxin on Ca2+ influx may exist. To investigate this particular point further, we use Thapsigargin, a Ca(2+)-endoplasmic reticulum ATPase inhibitor that can mobilize in human T lymphocytes I(1,4,5)P3-dependent intracellular Ca2+ pools by a PLC-independent pathway. We demonstrate that the Ca2+ influx triggered in the wild-type Jurkat cells or in JCT8 cells by Thapsigargin is antagonized by CT. The present data are therefore consistent with the idea that CT specifically impairs in the Jurkat T cell model the entry of Ca2+ from extracellular spaces by a mechanism independent not only from cAMP but also in part from inhibition by the toxin of phosphoinositide hydrolysis.
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PMID:Cyclic AMP- and inositol phosphate-independent inhibition of Ca2+ influx by cholera toxin in CD3-stimulated Jurkat T cells. A study with a cholera toxin-resistant cell variant and the Ca2+ endoplasmic reticulum-ATPase inhibitor thapsigargin. 165 Mar 86

FRTL-5 thyroid cells express a muscarinic receptor which inhibits the phospholipase C activity in a pirenzepine-insensitive manner. We here report that the cholinergic agonist carbachol decreases in these cells the steady-state iodide content, an effect correlated with the iodination of thyroglobulin and with thyroid hormone formation. Several signal pathways may be involved in this phenomenon since carbachol in addition to inhibiting phospholipase C, increased the arachidonic acid release and modified the adenylyl cyclase activity. In FRTL-5 cells, arachidonic acid is released via the direct stimulation of phospholipase A2 by a pirenzepine-sensitive muscarinic receptor coupled to a GTP binding protein sensitive to pertussis toxin. Regarding adenylyl cyclase, carbachol potentiated the thyrotropin-induced stimulation of the enzyme, whereas it did not affect the basal levels of cAMP. In vitro binding studies revealed the presence of two muscarinic binding sites. To summarize, the analysis of signal pathways and of in vitro binding sites indicates a complex muscarinic regulation of thyroid function, which includes the modulation of iodide fluxes.
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PMID:Muscarinic regulation of phospholipase A2 and iodide fluxes in FRTL-5 thyroid cells. 165 22


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