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 effect of neuropeptide Y on the number and affinity of catecholamine receptors in the ventricular myocardium was investigated. Receptor binding studies showed that incubation of cardiac membrane in the presence of neuropeptide Y (NPY, 10(-7) M) decreased the number of alpha/beta-adrenoceptor binding sites (Bmax) without affecting the affinity (KD) of these receptors. Although not able to modulate the contractility by itself, NPY was able to decrease the positive inotropic effects of phenylephrine and isoproterenol in the isolated, perfused myocardium. Ca2+/Mg(2+)-ATPase activity, measured from the sarcolemma, sarcoplasmic reticulum and myofibrils, was unaltered whereas the activity of sarcolemmal Na+/K(+)-ATPase was decreased when NPY was included in the media. On the other hand, NPY was shown to increase the phosphoinositide-phospholipase C associated with the sarcolemma. These findings support the hypothesis that NPY modulates postsynaptic adrenergic receptors in the myocardium and can affect the adrenergic-induced, inotropic response.
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PMID:Adrenoreceptor-mediated effect of neuropeptide Y decreases cardiac inotropic responses. 803 15

The effects of vasoconstrictor-receptor (neuropeptide Y, alpha-adrenergic, serotonergic, histaminergic) stimulation on currents through ATP-sensitive potassium (KATP) channels in arterial smooth muscle cells were examined. Whole-cell KATP currents, activated by the synthetic KATP channel opener pinacidil or by the endogenous vasodilator, calcitonin gene-related peptide, which acts through protein kinase A, were measured in smooth muscle cells isolated from mesenteric arteries of rabbit. Stimulation of NPY-, alpha 1-, serotonin (5-HT2)-, and histamine (H1)-receptors inhibited KATP currents by 40-56%. The signal transduction pathway that links these receptors to KATP channels was investigated. An inhibitor of phospholipase C (D609) and of protein kinase C (GF 109203X) reduced the inhibitory effect of these vasoconstrictors on KATP currents from 40-56% to 11-23%. Activators of protein kinase C, a diacylglycerol analogue and phorbol 12-myristate 13-acetate (PMA), inhibited KATP currents by 87.3 and 84.2%, respectively. KATP currents, activated by calcitonin gene-related peptide, were also inhibited (47-87%) by serotonin, phenylephrine, and PMA. We propose that KATP channels in these arterial myocytes are subject to dual modulation by protein kinase C (inhibition) and protein kinase A (activation).
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PMID:Vasoconstrictors inhibit ATP-sensitive K+ channels in arterial smooth muscle through protein kinase C. 889 79

The current studies have implicated a prominent role for PACAP peptides in modulating the physiological function of cells derived from the sympathoadrenal lineage. Compared to VIP, both PACAP-27 and PACAP-38 demonstrated potent, efficacious, and sustained stimulatory effects on sympathetic neuronal NPY and catecholamine production. The differential effects of PACAP peptides on SCG NPY and catecholamine content and secretion coincided with previous studies that activated directly the sympathetic intracellular cyclic AMP-protein kinase A signaling pathway. These effects appear to be mediated primarily by PACAP1 receptor splice variants coupled to both adenylyl cyclase and phospholipase C in SCG neurons. The actions of PACAP peptides in the SCG shared many parallels with adrenal medullary chromaffin cells, suggesting diverse roles for the PACAP peptidergic system in sympathoadrenal cell development and function. Rather than solutions, these results pose additional questions for the future. What are the endogenous sources of PACAP that regulate sympathetic and adrenal function? Do PACAP peptides, like VIP, have dual roles and also act as sympathetic postganglionic neuromodulators? Are VIP/PACAP receptors expressed during SCG development? What regulates sympathetic PACAP1 receptor isoform expression and how are they differentially coupled to neuronal intracellular signaling cascades? What defines the tissue-specific responses to PACAP-27 and PACAP-38? While many of these questions are not easily approached, future studies of these issues will certainly illuminate the function of PACAP and PACAP receptors in the nervous and endocrine systems.
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PMID:Pituitary adenylate cyclase-activating polypeptides, PACAP-38 and PACAP-27, regulation of sympathetic neuron catecholamine, and neuropeptide Y expression through activation of type I PACAP/VIP receptor isoforms. 899 4

1. Neuropeptide Y (NPY; 3-100 nmol/L) caused a concentration-dependent potentiation of constriction in response to noradrenaline or the thromboxane mimetic U46619 in arterioles from the submucosa of the guinea-pig small intestine. 2. In arterioles permeabilized by exposure to the alpha-toxin of Staphylococcus aureus and maintained in Ca(2+)-buffered medium, NPY potentiated the contractile effects of Ca2+. The magnitude of the potentiation was the same as in intact arterioles. 3. Exposure of arterioles to 1 mumol/L nifedipine to inhibit Ca2+ influx or to 20 mumol/L cyclopiazonic acid to abolish Ca2+ uptake into internal stores had no effect on the potentiating action of NPY.
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PMID:Mechanism of the potentiation of vasoconstriction by neuropeptide Y in arterioles from the submucosa of the guinea-pig small intestine. 913 Dec 88

BIBP3226 was developed as a potent, selective and competitive antagonist for NPY Y1 receptors by mimicking the C-terminal part of NPY. In agreement with previous studies, NPY mediated a pertussis toxin sensitive elevation of intracellular calcium concentration in CHO-K1 cells that express recombinant human NPY Y1 receptors which can be inhibited by BIBP3226. Surprisingly micromolar concentrations of BIBP3226 were found to induce by itself a fast increase of intracellular calcium concentration followed by a sustained elevated level of this ion. These responses of BIBP3226 are not mediated by NPY receptor activation since (1) they are still present after NPY receptor activation and desensitization, (2) they are also evoked by the receptor inactive enantiomer BIBP3435, (3) they are not affected by pretreatment of the cells with pertussis toxin, (4) they also occur in non-transfected CHO-K1 cells. Preincubation of the cells with EGTA abolished only the sustained increase calcium concentration elicited by BIBP3226 suggesting that the fast increase of intracellular calcium concentration reflects the mobilization of intracellular calcium pools. The ability of thapsigargin to completely inhibit BIBP3226 mediated responses, in the presence or absence of extracellular calcium indeed indicated that BIBP3226 mobilizes intracellular Ins(1,2,3)P3 sensitive calcium stores. In agreement, BIBP3226 was found to activate phospholipase C since the responses were completely inhibited by U73122. Furthermore, when measured in the presence of 10 mM LiCl, BIBP3226 caused an increased accumulation of inositol phosphates. This effect of BIBP3226 is likely to be mediated by activation of an until now unknown receptor or cellular target that is endogeneously expressed in CHO-K1 cells.
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PMID:Effect of BIBP3226 on inositol phosphate accumulation and cytosolic calcium level in control and NPY Y1 receptor expressing CHO-K1 cells. 980 9

Under control incubation conditions, gonadotropin-releasing hormone (GnRH) binds only a fraction of its receptors in rat-cultivated pituitary cells. Unmasking of the remaining receptors, which have been termed 'cryptic', requires drug- or peptide-induced protein kinase activation. Spontaneous masking however is not observed on pituitary cells sampled from castrated male rats, suggesting the presence of an intrinsic unmasking factor. Many endogenous factors could theoretically account for the effect. Here we attempted to identify the factor involved by taking advantage of their differential dependency upon second messengers and transduction cascades. Spontaneous unmasking of GnRH binding was found reversed by pertussis toxin (PTX), an inhibitor of alphai and alphao subunits of heterotrimeric G proteins, and by U73122, a phospholipase C (PLC) inhibitor. In contrast, desensitization of protein kinase C (PKC) or inhibition of tyrosine kinase by herbimycin were ineffective. Among endogenous pituitary factors able to unmask GnRH receptors in pituitary cells from normal male rats, as EGF, NPY or opiate peptides, only the latter were found to correspond to this transduction profile. In an attempt to characterize the pharmacology of opiate effects, naloxone (10 microM), a poorly selective opiate antagonist, restored masking of GnRH binding in cells from castrates. Only the delta antagonist naltrindole (1 microM) was able to mimick the action of naloxone. Conversely, when tested on cells from intact animals, morphine (10 microM), as well as dslet (1 microM) and met-ENK (10 nM), preferential delta agonists, but not dago and beta-endorphin or U50488 H and dynorphin, respectively micro and kappa agonists, were able to suppress masking. Among opioid peptides endogenous to the pituitary, only met-ENK was able to unmask cryptic receptors, an effect antagonized by naltrindole. We conclude that an opiate delta receptor subtype is endogenously activated in the pituitary of castrated male rats to prevent masking of GnRH binding.
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PMID:Delta opiate receptors account for the castration-induced unmasking of gonadotropin-releasing hormone binding sites in the rat pituitary. 987 2

Sites sensitive to human and rat pancreatic polypeptides (hPP and rPP) accounted for more than 30% of the specific binding of [125I](Leu31,Pro34) human peptide YY (LP-PYY) in particulates from rabbit kidney cortex, and about 10% of the specific binding in membranes from rabbit hypothalamus. The binding of [125I]hPP or [125I]rPP showed a high-affinity displacement with either hPP, rPP, LP-PYY, neuropeptide Y or peptide YY (Ki below 50 pM for all), while being quite insensitive to Y2-selective ligands. The PP binding had a high sensitivity to alkali cations and inhibitors of phospholipase C, very similar to that of LP-PYY binding 'masked' by excess cold hPP. However, as different from the Y1-like LP-PYY binding, but similar to the binding of the Y2-selective ligand [125I]human peptide YY(3-36) (hPYY(3-36)), the PP binding showed a low sensitivity to guanosine polyphosphates. The PP binding was much more sensitive to N5-substituted amiloride inhibitors of Na+ transport than the binding of LP-PYY, or that of hPYY(3-36). The inhibition of PP binding by N5-substituted amilorides was not enhanced by guanine nucleotides or by phospholipase C blockers. However, pairing of N5-substituted amilorides disproportionately increased the inhibition of hPP binding. Thus, in rabbit kidney or hypothalamus, the high-affinity PP-responding sites share some of the basic properties of the Y1 and Y2 sites, but are distinguished from both by a high sensitivity to compounds affecting sodium transport. These PP/NPY receptors could associate with membrane structures involved in the control of ion balance and osmotic responses.
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PMID:Characterization of rabbit kidney and brain pancreatic polypeptide-binding neuropeptide Y receptors: differences with Y1 and Y2 sites in sensitivity to amiloride derivatives affecting sodium transport. 1045 51

The binding of [(125)I] orexin-A (Ox-A) to particulates from Chinese hamster ovary (CHO) cells expressing the cloned orexin-A receptor, or from rat forebrain areas, was sensitive to blockers of phosphatidylinositol-specific phospholipase C (PtdIns-PLC) U-73122 and ET-18-OCH(3), little affected by phospholipase A(2) inhibitor quinacrine, and not sensitive to D609, a xanthate inhibitor of phosphatidylcholine-selective PLC. Interaction of the receptor with a PtdIns-PLC was further indicated by a large sensitivity of the binding to Ca(2+). Up to 50% of the binding was sensitive to the G-protein nucleotide site agonist GTP-gamma-S. Ligand attachment to the orexin-A receptor thus depends on an association with both PtdIns-PLC and G-protein alpha-subunits. In all paradigms examined, the binding of [(125)I]orexin-A was competed by human/rat neuropeptide Y (hNPY) and porcine secretin with a potency similar to orexin-A (IC(50) range 30-100 nM). The rank order of potency for NPY-related peptides was hNPY > porcine peptide YY (pPYY) > (Leu(31), Pro(34)) human PYY > human PYY(3-36) > hNPY free acid > human pancreatic polypeptide. Among secretin-related peptides, the rank order of potency was porcine secretin > or = orexin-A > human pituitary adenylate cyclase-activating peptide > orexin-B > porcine vasoactive intestinal peptide. Among opioid peptides, rat beta-endorphin and camel delta-endorphin were much less active than NPY and secretin, and two enkephalins were inactive at 1 microM. In view of high abundance of NPY in forebrain, the above cross-reactivity could indicate a significant contribution of NPY to signaling via orexin-A receptors.
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PMID:Sensitivity of orexin-A binding to phospholipase C inhibitors, neuropeptide Y, and secretin. 1086 Aug 58

ATP increases cAMP formation in bovine chromaffin cells, EC(50) = 7.1 x 10(-6) M. NPY, EC(50) = 4.1 x 10(-8) M, increases the efficacy of ATP (1.5-2 fold). Inclusion of the selective Y1 receptor antagonist 1229U91 produced a decrease in NPY potency (EC(50) = 2.7 x 10(-7) M). PTX pretreatment did not abolish either the effect of ATP nor the enhancement by NPY. NPY could also enhance the ability of angiotensin and bradykinin to increase cAMP formation. The selective phospholipase C inhibitor, U73122, and the selective protein kinase C inhibitors, bisindolylmaleimide I and RO-31-8425, were effective inhibitors of the enhancing effect of NPY.
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PMID:ATP stimulated cyclic AMP formation in bovine chromaffin cells is enhanced by neuropeptide Y. 1128 99

Islet function is regulated by a number of different signals. A main signal is generated by glucose, which stimulates insulin secretion and inhibits glucagon secretion. The glucose effects are modulated by many factors, including hormones, neurotransmitters and nutrients. Several of these factors signal through guanine nucleotide-binding protein (G protein)-coupled receptors (GPCR). Examples of islet GPCR are GPR40 and GPR119, which are GPCR with fatty acids as ligands, the receptors for the incretin hormones glucagon-like peptide-1 (GLP-1) and glucose-dependent insulinotropic polypeptide (GIP), the receptors for the islet hormones glucagon and somatostatin, the receptors for the classical neurotransmittors acetylcholine (ACh; M(3) muscarinic receptors) and noradrenaline (beta(2)- and alpha(2)-adrenoceptors) and for the neuropeptides pituitary adenylate cyclase-activating polypeptide (PACAP) and vasoactive intestinal polypeptide (VIP; PAC(1) and VPAC(2) receptors), cholecystokinin (CCK(A) receptors) and neuropeptide Y (NPY Y1 receptors). Other islet GPCR are the cannabinoid receptor (CB(1) receptors), the vasopressin receptors (V1(B) receptors) and the purinergic receptors (P(2Y) receptors). The islet GPCR couple mainly to adenylate cyclase and to phospholipase C (PLC). Since important pharmacological strategies for treatment of type 2 diabetes are stimulation of insulin secretion and inhibition of glucagon secretion, islet GPCR are potential drug targets. This review summarizes knowledge on islet GPCR.
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PMID:G-protein-coupled receptors and islet function-implications for treatment of type 2 diabetes. 1790 Jul

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