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 molecular mechanism by which the G protein betagamma complex modulates multiple mammalian effector pathways is unknown. Homolog-scanning mutagenesis of the G protein beta subunit was employed to identify residues critical for the activation of phospholipase C-beta2 (PLC-beta2). A series of chimeras was made by introducing small segments of the Dictyostelium beta subunit into a background of mammalian beta1 and tested in COS cell cotransfection assays for their ability to activate PLC-beta2 and assemble with mammalian gamma2. A chimera that contained four Dictyostelium beta substitutions within the C-terminal 14 residues was unable to activate PLC-beta2 when cotransfected with gamma, despite its demonstrable expression in a gamma-dependent manner. Cotransfection of the mutant blocked m2 muscarinic receptor activation of PLC by a pertussis toxin-sensitive pathway. This C-terminal mutant retained the ability, however, to stimulate the mitogen-activated protein kinase pathway. These results imply that activation of different betagamma-responsive effectors is mediated by distinct domains.
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PMID:A C-terminal mutant of the G protein beta subunit deficient in the activation of phospholipase C-beta. 870 47

The PTH/PTH-related peptide (PTHrP) receptor and the calcitonin receptor mediate the action of their physiological ligands by activating two different effectors, adenylyl cyclase and phospholipase C. Whereas regulation of adenylyl cyclase via both receptors is thought to involve the G protein G(s), it is not known whether activation of phospholipase C results from coupling of the receptors to G(q) family members or whether beta gamma-subunit released from receptor-activated G(s) lead to phospholipase C activation. To elucidate the mechanism of this type of dual signaling, we reconstituted the signal transduction of the PTH/PTHrP and the calcitonin receptor in COS-7 and HEK293 cells. In COS-7 cells expressing the receptor alone, addition of the respective ligands resulted in the accumulation of cAMP and inositol phosphates. When cells were cotransfected with the cDNAs of receptor and different alpha-subunits of the Gq family (G alpha q, G alpha 11, G alpha 14, G alpha 15, and G alpha 16, a severalfold increase in the ligand-dependent inositol phosphate production could be observed, indicating that the receptors functionally interacted with all alpha-subunits of the G alpha q family. Additionally, whereas PTH treatment of HEK293 cells coexpressing both the PTH/PTHrP receptor and G alpha q increased both second messengers, the same treatment in cells expressing the PTH/PTHrP receptor alone increased only cAMP. Under all conditions tested, activation of phospholipase C via the PTH/PTHrP and calcitonin receptor required higher ligand concentrations than receptor-mediated adenylyl cyclase activation. Our data strongly support the idea that dual signaling of the PTH/PTHrP and calcitonin receptors is due to the a activation of different G proteins belonging to the G(s) and G(q) families.
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PMID:G alpha q family members couple parathyroid hormone (PTH)/PTH-related peptide and calcitonin receptors to phospholipase C in COS-7 cells. 873 87

Na-K-adenosinetriphosphatase (Na-K-ATPase) is a potential target for phosphorylation by protein kinase A (PKA) and C (PKC). We have investigated whether the Na-K-ATPase alpha-subunit becomes phosphorylated at its PKA or PKC phosphorylation sites upon stimulation of G protein-coupled receptors primarily linked either to the PKA or the PKC pathway. COS-7 cells, transiently or stably expressing Bufo marinus Na-K-ATPase wild-type alpha- or mutant alpha-subunits affected in its PKA or PKC phosphorylation site, were transfected with recombinant DNA encoding beta 2- or alpha 1-adrenergic (AR), dopaminergic (D1A-R), or muscarinic cholinergic (M1-AChR) receptor subspecies. Agonist stimulation of beta 2-AR or D1A-R led to phosphorylation of the wild-type alpha-subunit, as well as the PKC mutant, but not of the PKA mutant, indicating that these receptors can phosphorylate the Na-K-ATPase via PKA activation. Surprisingly, stimulation of the alpha 1B-AR, alpha 1C-AR, and M1-AChR also increased the phosphorylation of the wild-type alpha-subunit and its PKC mutant but not of its PKA mutant. Thus the phosphorylation induced by these primarily phospholipase C-linked receptors seems mainly mediated by PKA activation. These data indicate that the Na-K-ATPase alpha-subunit can act as an ultimate target for PKA phosphorylation in a cascade starting with agonist-receptor interaction and leading finally to a phosphorylation-mediated regulation of the enzyme.
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PMID:Adrenergic, dopaminergic, and muscarinic receptor stimulation leads to PKA phosphorylation of Na-K-ATPase. 877 38

In COS-7 cells, all five cloned somatostatin receptors are coupled via inhibitory G proteins to activation of an unidentified phospholipase C-beta (PLC-beta) isozyme and inhibition of adenylyl cyclase. In the present study, intestinal smooth muscle cells (SMC) that express only one receptor type, sstr3, and possess a full complement of G proteins and PLC-beta isozymes were used to identify the PLC-beta isozyme and the G proteins coupled to it and to adenylyl cyclase. Somatostatin-14 bound with high affinity to intestinal SMC; stimulated D-myo-inositol-1,4,5-trisphosphate (IP3) formation, Ca2+ release, and contraction; and inhibited forskolin-stimulated cAMP formation in a pertussis toxin-sensitive fashion. Somatostatin also stimulated phosphoinositide hydrolysis in plasma membranes. Only those somatostatin analogs that shared a high affinity for sstr3 receptors elicited muscle contraction. IP3 formation, Ca2+ release, and contraction in permeabilized SMC and phosphoinositide hydrolysis in plasma membranes were inhibited (approximately 80%) by pretreatment with antibodies to PLC-beta3 but not other PLC-beta isozymes, and by antibodies to Gbeta but not Galpha. Inhibition of cAMP formation was partially blocked by antibody to Galphai1 or Galphao and additively blocked by a combination of both antibodies. Somatostatin-stimulated [35S]GTPgammaS-Galpha complexes in plasma membranes were bound selectively by Galphai1 and Galphao antibodies. We conclude that in smooth muscle sstr3 is coupled to Gi1 and Go; the alpha subunits of both G proteins mediate inhibition of adenylyl cyclase, while the betagamma subunits mediate activation of PLC-beta3.
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PMID:Somatostatin receptor-mediated signaling in smooth muscle. Activation of phospholipase C-beta3 by Gbetagamma and inhibition of adenylyl cyclase by Galphai1 and Galphao. 879 53

We have previously identified a novel 130 kDa protein (p130) which binds Ins(1,4,5)P3 and shares 38% sequence identity with phospholipase C-delta 1 [Kanematsu, Misumi, Watanabe, Ozaki, Koga, Iwanaga, Ikehara and Hirata (1996) Biochem. J. 313, 319-325]. We have now transfected COS-1 cells with genes encoding the entire length of the molecule or one of several truncated mutants, in order to locate the region for binding of Ins(1,4,5)P3. Deletion of N-terminal residues 116-232, the region which corresponds to the pleckstrin homology (PH) domain of the molecule, completely abolished binding activity. This result was confirmed when the PH domain itself (residues 95-232), isolated from a bacterial expression system, was found to bind [3H]Ins(1,4,5)P3. We also found that Ins(1,4,5,6)P4 was as efficacious as Ins(1,4,5)P3 in displacing [3H]Ins(1,4,5)P3, suggesting that these two polyphosphates bind to p130 with similar affinity. This conclusion was confirmed by direct binding studies using [3H]Ins(1,4,5,6)P4 with high specific radioactivity which we prepared ourselves. Binding specificity was also examined with a variety of inositol phosphate derivatives. As is the case with other PH domains characterized to date, we found that the 4,5-vicinal phosphate pair was an essential determinant of ligand specificity. However, the PH domain of p130 exhibited some novel features. For example, the 3- and/or 6-phosphates could also contribute to overall binding; this contrasts with some other PH domains where these phosphate groups decrease ligand affinity by imposing a steric constraint. Secondly, a free monoester 1-phosphate substantially increased binding affinity, which is a situation so far unique to the PH domain of p130.
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PMID:Localization of a high-affinity inositol 1,4,5-trisphosphate/inositol 1,4,5,6-tetrakisphosphate binding domain to the pleckstrin homology module of a new 130 kDa protein: characterization of the determinants of structural specificity. 880 47

Aminopeptidase P (AP-P; X-Pro aminopeptidase; EC 3.4.11.9), a key enzyme in the metabolism of the vasodilator bradykinin, has been cloned from a pig kidney cortex cDNA library following the use of the PCR to identify sub-libraries enriched in AP-P clones. The complete primary sequence of the enzyme has been deduced from a full-length cDNA clone. This predicts a protein of 673 amino acids with a cleavable N-terminal signal sequence and six potential N-linked glycosylation sites. A stretch of mainly hydrophobic amino acids at the C-terminus is predicted to co-ordinate the attachment of a glycosyl-phosphatidylinositol (GPI) membrane anchor. Although AP-P is a zinc metallopeptidase, the predicted primary sequence does not contain any recognizable zinc-binding motif. Transient expression of AP-P cDNA in COS-1 cells resulted in enzymic activity characteristic of AP-P, namely apstatin- and EDTA-sensitive hydrolysis of bradykinin and Gly-Pro-Hyp. The expressed protein was recognized as a polypeptide of M(r)91,000 under reducing conditions, following immunoblotting of COS-1 membranes with a polyclonal antibody raised against purified pig kidney AP-P. The presence of a GPI anchor on expressed AP-P was established by demonstrating release of the enzyme from a membrane fraction following treatment with bacterial phosphatidylinositol-specific phospholipase C and its corresponding conversion from an amphipathic to a hydrophilic form, as assessed by phase separation in Triton X-114. Sequence comparisons confirm that AP-P is a member of the proline peptidase family of hydrolytic enzymes and is unrelated in sequence to other brush-border membrane peptidases.
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PMID:Molecular cloning and expression in COS-1 cells of pig kidney aminopeptidase P. 887 Jun 69

In several cell systems histamine has been shown to stimulate both adenylyl cyclase and phospholipase C through activation of a G protein-coupled H2 receptor. To analyze the bifurcating signal emanating from the activated H2 receptor and to identify the G proteins involved, H1 and H2 histamine receptors were functionally expressed in baculovirus-infected insect cells. Histamine challenge lead to concentration-dependent cAMP formation and Ca2+ mobilization in Sf9 cells infected with a virus encoding the H2 receptor, whereas H1 receptor stimulation only resulted in pronounced phospholipase C activation. To analyze the G protein coupling pattern of histamine receptors, activated G proteins were labeled with [alpha-32P]GTP azidoanilide and identified by selective immunoprecipitation. In insect cell membranes expressing H1 histamine receptors, histamine led to incorporation of the label into alpha q-like proteins, whereas activation of the H2 receptor resulted in labeling of alpha q- and alpha s-like G protein alpha-subunits. In COS cells transfected with H2 receptor complementary DNA, histamine caused concentration-dependent accumulation of cAMP and inositol phosphates; the latter effect was insensitive to pertussis toxin treatment. Histamine stimulation led to a pronounced increase in inositol phosphate production when complementary DNAs coding for alpha q, alpha 11, alpha 14, or alpha 15 G protein alpha-subunits were cotransfected. This increase was specific for Gq family members, as overexpression of alpha 12 or alpha s did not enhance histamine-stimulated phospholipase C activation. In membranes of guinea pig heart, addition of [alpha-32P]GTP azidoanilide resulted in labeling of alpha q and alpha 11 via the activated H1 and also via H2 receptors. These data demonstrate that dual signaling of the activated H2 histamine receptor is mediated by coupling of the receptor to Gs and Gq family members.
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PMID:G proteins of the Gq family couple the H2 histamine receptor to phospholipase C. 896 Dec 78

Until recently, neonatal hyperthyroidism has been considered to be related to the transplacental passage of thyroid-stimulating Ig present in the serum of the mother. We report here the case of a newborn who presented with severe hyperthyroidism, diffuse goiter, and important ocular signs (eyelid retraction and possibly proptosis). However, the absence of thyroid pathology in the parents and the lack of antithyroid antibodies in the mother and in the patient led us to suspect a nonimmune aetiology. Direct genomic sequencing of the last exon of the TSH receptor in the patient revealed a T-->C transversion yielding to a Met453-->Thr heterozygous substitution in the second transmembrane domain of the receptor. The mutation was absent in both parents. Eukaryotic expression analysis in COS-7 cells yielded a mutated receptor that produced constitutive activation of adenylate cyclase without enhancement of phospholipase C activity.
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PMID:A neomutation of the thyroid-stimulating hormone receptor in a severe neonatal hyperthyroidism. 896 21

Structural determinants within the parathyroid hormone (PTH)/PTH-related peptide (PTHrP) receptor that mediate G-protein activation of adenylate cyclase and phospholipase C are unknown. We investigated the role of the N-terminal region of the third intracellular loop of the opossum PTH/PTHrP receptor in coupling to two signal transduction pathways. We mutated residues in this region by tandem-alanine scanning and expressed these mutant receptors in COS-7 cells and/or Xenopus oocytes. All mutant receptors retained high affinity PTH binding in COS-7 cells, indistinguishable from wild-type receptors. Receptors with tandem-alanine substitutions in two N-terminal segments (377RVL379 and 381TKLR384) demonstrated impaired adenylate cyclase and phospholipase C activation. Receptor mutants with single-alanine substitutions scanning these two segments showed three different signaling defects in COS-7 cells. 1) Two mutant receptors (V378A and L379A) had reduced inositol phosphate (IP), but normal cAMP responses to PTH. 2) Mutant receptor T381A showed reduced cAMP, but wild-type IP responses to PTH. 3) Mutant receptor K382A demonstrated both markedly reduced cAMP and IP production due to PTH. In oocytes, mutants T381A and K382A showed decreased PTH-stimulated cAMP accumulation and intracellular Ca2+ mobilization. Thus, the N-terminal region of the third intracellular loop of this receptor plays a critical role in coupling to both Gs- and Gq-mediated second-messenger generation.
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PMID:The N-terminal region of the third intracellular loop of the parathyroid hormone (PTH)/PTH-related peptide receptor is critical for coupling to cAMP and inositol phosphate/Ca2+ signal transduction pathways. 896 99

While multiple G protein beta and gamma subunit isoforms have been identified, the implications of this potential diversity of betagamma heterodimers for signaling through betagamma-regulated effector pathways remains unclear. Furthermore the molecular mechanism(s) by which the betagamma complex modulates diverse mammalian effector molecules is unknown. Effector signaling by the structurally distinct brain-specific beta5 subunit was assessed by transient cotransfection with gamma2 in COS cells and compared with beta1. Transfection of either beta1 or beta5 with gamma2 stimulated the activity of cotransfected phospholipase C-beta2 (PLC-beta2), as previously reported. In contrast, cotransfection of beta1 but not beta5 with gamma2 stimulated the mitogen-activated protein kinase (MAPK) and c-Jun N-terminal kinase (JNK) pathways even though the expression of beta5 in COS cells was evident by immunoblotting. The G protein beta5 expressed in transfected COS cells was properly folded as its pattern of stable C-terminal proteolytic fragments was identical to that of native brain beta5. The inability of beta5 to activate the MAPK and JNK pathways was not overcome by cotransfection with three additional Ggamma isoforms. These results suggest it is the Gbeta subunit which determines the pattern of downstream signaling by the betagamma complex and imply that the structural features of the betagamma complex mediating effector regulation may differ among effectors.
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PMID:Selective activation of effector pathways by brain-specific G protein beta5. 896 24

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