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)

Angiotensin II (Ang II) receptors are 7 transmembrane domain receptors corresponding to 2 pharmacologically and molecularly distinct receptors, called AT1 and AT2, the primary structures of which have been established by molecular cloning. Most if not all the physiological actions of Ang II are mediated by the AT1 receptor, which is coupled to a Gq protein activating a phospholipase C (PLC), which in turn mobilizes the intracellular calcium stores and activates protein kinases C. Many site directed mutagenesis works have allowed to identify short extracellular sequences responsible for the Ang II binding, whereas non-peptidic AT1-specific antagonists bind to a different transmembranar site. Structural modifications are responsible for the change of the receptor from an inactive to an active state. At the basal state, the receptor is mostly in an inactive state; agonists present a better affinity for the active state, displacing the equilibrium to this state; at the opposite, the inverse agonists present a better affinity for the inactive state. Antagonists present a similar affinity for both states of the receptor. Several mutations of polar residues of the transmembrane domains block the receptor either in an inactive state (D74D, S115A, Y292F) or in a constitutively active state (N111A and N295A). After activation, the receptor is coupled to different intracellular proteins, the first of them being the G proteins of the Gq/11 family. The sequences of the receptor involved in this coupling correspond to the 2nd, the 3rd intracellular loops and the proximal segment of the carboxyterminal domain. Other sequences interact with other proteins, such as the 319YIPP332 sequence of the carboxyterminus, which interacts with the Jak2 tyrosine kinase. After the binding of a peptidic ligands, the ligand-receptor complex is internalized independently for the G protein coupling. Again, site directed mutagenesis experiments have localized a sequence of the carboxyterminus (329STLSTKMSTLS338) involved in the internalization. This serine and threonine-rich sequence plays also a role in the desensitization of the AT1 receptor, consecutively to its phosphorylation. The AT2 receptor is only 34% identical to the AT1 receptor and its functions are far less understood. Its physiological functions (apoptosis and antiproliferative actions) and its signaling pathways (activation of Gi proteins and tyrosine phosphatases) are still a matter of debate.
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PMID:[Molecular structure and function of angiotensin ii receptors]. 985 75

Proctolin (Arg-Tyr-Leu-Pro-Thr) and proctolin analogs modified at position 1, 2, or 5 caused dose dependent contractions of Blaberus fore- and hindgut. The varying contractile effects between both tissues revealed the possible presence of receptor subtypes as identified by [GABA1]-proctolin. A single population of binding sites (Kd approximately 100 nM) was deduced from Scatchard analysis. In addition, nanomolar concentrations of proctolin induced a dose-dependent hydrolysis of phosphoinositides (PIns) augmented by GTPgammaS (1 microM) on foregut membranes but no accumulation of cAMP. Proctolin induced contractions are likely mediated via a phospholipase C linked to a heptahelical receptor bound to heterotrimeric G-proteins.
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PMID:Pharmacological studies of proctolin receptors on foregut and hindgut of Blaberus craniifer. 988 67

The alpha isoform of the folate receptor (FR) is a 38-KDa glycosylphosphatidylinositol (GPI) protein which mediates the internalization of folates. The FR amino acid sequence has features typical of GPI-linked proteins, including the presence of a hydrophobic carboxyl-terminus, a hinge region, and a stretch of small and uncharged amino acids. Substitution of predicted cleavage/attachment Ser234 with arginine or threonine, or replacement of Gly235 with proline by site-directed mutagenesis had no effect on GPI processing. In fact, CHO cells transfected with each of the three cDNA variants or with FR wild-type showed comparable amounts of phosphatidylinositol-specific phospholipase C-resistant FR in double-determinant radioimmunoassay. Western blot analysis of total cell lysates from all transfectants consistently revealed the 38-KDa FR band. Deletion of residues 233-237 in the amino-terminal portion of the FR cDNA constructs derived by a polymerase chain reaction strategy abrogated GPI processing, with only a small proportion of the FR remaining in the cytoplasm in four of the five clones tested. This finding suggests that FR residues 233-237 are essential in properly juxtaposing the FR hydrophobic domain. Together, these data support the hypothesis that the postulated Ser234 is not the only potential cleavage/attachment site of the alpha isoform of FR.
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PMID:Molecular requirements for attachment of the glycosylphosphatidylinositol anchor to the human alpha folate receptor. 1002 72

The binding of bradykinin (BK) to B2 receptor triggers the internalization of the agonist-receptor complex. To investigate the mechanisms and the receptor structures involved in this fundamental process of receptor regulation, the human B2 receptor was mutated within its cytoplasmic tail by complementary strategies of truncation, deletion, and amino acid substitution. Ligand binding, signal transduction, internalization as well as phosphorylation were studied for the mutated receptors expressed in COS, CHO, and HEK 293 cells. Truncation of 44 out of 55 amino acid residues of the receptor's cytoplasmic tail corresponding to positions 321-364 did not alter the kinetics of BK binding and the receptor coupling to phospholipase C and phospholipase A2. By contrast, truncations after positions 320 and 334, deletions within the segment covering positions 335-351, as well as alanine substitution of serine and threonine residues within segment 335-351 diminished the internalization capacity of the mutant receptors. Mutants with a markedly reduced internalization potential failed to produce BK-induced receptor phosphorylation suggesting that phosphorylation may be involved in receptor internalization. The mutagenesis approaches converged at the conclusion that three serines in positions 339, 346, and 348 and two threonines in positions 342 and 345, contained in a sequence segment that is highly conserved between species, have a critical role in the ligand-dependent internalization and phosphorylation of kinin receptors and can intervene in these processes in an alternative manner. However, mutants lacking these residues were still sensitive to dominant-negative forms of beta-arrestin and dynamin, suggesting the existence of additional receptor structure(s) involved in the receptor sequestration through clathrin-coated vesicles.
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PMID:Bradykinin-induced internalization of the human B2 receptor requires phosphorylation of three serine and two threonine residues at its carboxyl tail. 1021 57

Continuous stimulation of anaphylatoxin receptors C3aR and C5aR with their cognate ligands engenders, within minutes, diminished responsiveness of these receptors. We tested the hypothesis that agonist-induced desensitization involves C3aR and C5aR phosphorylation by G protein-coupled receptor kinases (GRK). When expressed in rat basophilic leukemia cells and exposed to C3a, the C3aR underwent rapid (t(1/2) approximately 15 s), dose-dependent (EC50 approximately 10 nM) and reversible phosphorylation by a kinase refractory to the effects of PKC inhibitors. Phosphoamino acid analysis revealed that the C3aR is phosphorylated on serine and threonine, but not on tyrosine residues. Overexpression of GRK2, GRK3, GRK5 or GRK6 together with C3aR in COS-7 cells enhanced the C3a-induced C3aR phosphorylation 1.5 - 1.9-fold (p < 0.05), but each kinase reduced ligand-stimulated phospholipase C activity differently. Conversely, antibody-mediated inhibition of endogenous GRK2 and GRK3 significantly inhibited C3aR phosphorylation in permeabilized cells. GRK overexpression in cells which co-expressed C5aR and were exposed to C5a resulted in the hyperphosphorylation of the C5aR. These findings are of physiological relevance, since we observed anaphylatoxin-induced phosphorylation of C3aR and C5aR endogenously expressed in human mast cells (HMC-1) which contain significant intracellular levels of GRK2 and GRK3.
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PMID:Ligand-induced phosphorylation of anaphylatoxin receptors C3aR and C5aR is mediated by "G protein-coupled receptor kinases. 1050 78

1. Triton X-100-demembranated smooth muscle loses Ca2+-sensitizing responsiveness to protein kinase C (PKC) activators while intact and alpha-toxin-permeabilized smooth muscles remain responsive. We attempted to reconstitute the contractile Ca2+ sensitization by PKC in the demembranated preparations. 2. Western blot analyses showed that the content of the PKC alpha-isoform (PKCalpha) was markedly reduced and that the smooth muscle-specific protein phosphatase-1 inhibitor protein CPI-17 was not detectable, while the amount of calponin and actin still remained similar to those of intact strips. 3. Unphosphorylated recombinant CPI-17 alone induced a small but significant contraction at constant Ca2+. Isoform-selective PKC inhibitors inhibited unphosphorylated but not pre-thiophosphorylated CPI-17-induced contraction, suggesting that in situ conventional PKC isoform(s) can phosphorylate CPI-17. 4. Exogenously replenishing PKCalpha alone did not induce potentiation of contraction and only slowly increased myosin light chain (MLC) phosphorylation at submaximal Ca2+. 5. PKC in the presence of CPI-17, but not the [T38A]-CPI mutant, markedly induced potentiation of both contraction and MLC phosphorylation. CPI-17 itself was phosphorylated. 6. In in vitro experiments, CPI-17 was a much better substrate for PKCalpha than calponin, caldesmon, MLC and myosin. 7. Our results indicate that PKC requires CPI-17 phosphorylation at Thr-38 but not calponin for reconstitution of the contractile Ca2+ sensitization in the demembranated arterial smooth muscle.
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PMID:Reconstitution of protein kinase C-induced contractile Ca2+ sensitization in triton X-100-demembranated rabbit arterial smooth muscle. 1051 94

We have isolated a cDNA encoding a novel protein, PLC-L(2), with homology to the phospholipase C-like protein PLC-L and delta-type phospholipase C. PLC-L(2) contains a relatively well-conserved PH domain, PLC catalytic region, and X and Y domains. However, it did not have PLC activity. This inactivation was thought to be caused by the replacement of two amino acids that are essential for PLC activity, His356 and Tyr552, with Thr and Phe in the X and Y domain. PLC-L(2) has a wide distribution with strong expression in skeletal muscle and mapped to chromosome 3p24-25. The PH domain of PLC-L(2) bound strongly to PI(4,5)P(2) and Ins(1,4,5)P(3), and moderately to PI(4)P and PI(3,4,5)P(3). PLC-L(2) predominantly localized to perinuclear areas in both myoblast and myotube C2C12 cells. Ectopically expressed GFP-PLC-L(2) also mainly localized in perinuclear areas, including endoplasmic reticulum in COS 7 cells. Furthermore, the expression of GFP-PH showed the same intracellular distribution as the full-length PLC-L(2). All these results suggest that PLC-L(2) plays an important role in the regulation of Ins(1,4, 5)P(3) around the endoplasmic reticulum on which the Ins(1,4,5)P(3) receptor exists.
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PMID:Identification and characterization of a new phospholipase C-like protein, PLC-L(2). 1058 Nov 72

Fischer rat airway smooth muscle (ASM) models two potential risk factors for asthma: hyperresponsiveness to contractile agonists and to growth stimuli. The aim of this study was to identify the mechanisms responsible for enhanced ASM mitogenic response in Fischer rats compared with the control Lewis strain. The enhanced Fischer ASM cell growth response to fetal bovine serum (FBS) could not be accounted for by phospholipase C, mitogen-activated protein kinases, or tyrosine kinase activities as assessed by pharmacological inhibition and Western blotting. In contrast, depletion of phorbol ester-sensitive isoforms of the serine/threonine kinase protein kinase C (PKC) removed the difference in growth response between the rat strains. Additionally, FBS selectively induced serine/threonine phosphorylation of a 115-kDa protein in Fischer ASM cells. Enhanced activation of PKC-betaI and decreased activation of PKC-delta in Fischer compared with Lewis cells following FBS stimulation were suggested by Western blotting of membrane and cytosolic fractions. The data are consistent with a role for PKC in the enhanced ASM cell growth of hyperresponsive rats.
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PMID:Protein kinase C is involved in enhanced airway smooth muscle cell growth in hyperresponsive rats. 1064 91

Brain-derived neurotrophic factor contributes profoundly to modulate activity-dependent synaptic plasticity in adult brain areas such as the hippocampus, but the mechanisms underlying this important role still remain unclear. Recently, we have shown that two serine/threonine kinases, calcium/calmodulin-dependent protein kinase-2 and casein kinase-2, are capable of mediating brain-derived neurotrophic factor responses in adult rat hippocampus. In the present study, using hippocampal slices from adult rat, we show that phospholipase C-regulated calcium signals couple the brain-derived neurotrophic factor receptor to two distinct pathways: a pathway in which calcium/calmodulin-dependent protein kinase-2 stimulates a signalling module involving the p38 subfamily of mitogen-activated protein kinases and its downstream target, usually named mitogen-activated protein kinase-activated protein kinase-2; and a pathway in which the extracellular signal-regulated kinase subfamily of mitogen-activated protein kinases activates casein kinase-2. Our results suggest that: (i) extracellular signal-regulated kinase is activated by B-Raf in response to a calcium-sensitive adenylate cyclase; and (ii) extracellular signal-regulated kinase activates casein kinase-2 via a protein phosphatase(s) that may be of the PP1 and/or PP2A type. Interestingly, we also show that neurotrophin-induced activation of the two signalling cascades promotes a sustained activation of mitogen-activated protein kinase-activated protein kinase-2 and casein kinase-2 in slices. Considering the ability of these two kinases to be persistently activated, and that most of the protein kinases which lie in these pathways are believed to be important for multiple events underlying neuronal plasticity, it is suggested that the mechanisms described here might contribute both to rapid synaptic changes through local effects and to long-lasting synaptic responses through new gene transcription in the hippocampus.
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PMID:Identification of two persistently activated neurotrophin-regulated pathways in rat hippocampus. 1067 Apr 37

To investigate the regulation of the CCR1 chemokine receptor, a rat basophilic leukemia (RBL-2H3) cell line was modified to stably express epitope-tagged receptor. These cells responded to RANTES (regulated upon activation normal T expressed and secreted), macrophage inflammatory protein-1alpha, and monocyte chemotactic protein-2 to mediate phospholipase C activation, intracellular Ca(2+) mobilization and exocytosis. Upon activation, CCR1 underwent phosphorylation and desensitization as measured by diminished GTPase stimulation and Ca(2+) mobilization. Alanine substitution of specific serine and threonine residues (S2 and S3) or truncation of the cytoplasmic tail (DeltaCCR1) of CCR1 abolished receptor phosphorylation and desensitization of G protein activation but did not abolish desensitization of Ca(2+) mobilization. S2, S3, and DeltaCCR1 were also resistant to internalization, mediated greater phosphatidylinositol hydrolysis and sustained Ca(2+) mobilization, and were only partially desensitized by RANTES, relative to S1 and CCR1. To study CCR1 cross-regulation, RBL cells co-expressing CCR1 and receptors for interleukin-8 (CXCR1, CXCR2, or a phosphorylation-deficient mutant of CXCR2, 331T) were produced. Interleukin-8 stimulation of CXCR1 or CXCR2 cross-phosphorylated CCR1 and cross-desensitized its ability to stimulate GTPase activity and Ca(2+) mobilization. Interestingly, CCR1 cross-phosphorylated and cross-desensitized CXCR2, but not CXCR1. Ca(2+) mobilization by S3 and DeltaCCR1 were also cross-desensitized by CXCR1 and CXCR2 despite lack of receptor phosphorylation. In contrast to wild type CCR1, S3 and DeltaCCR1, which produced sustained signals, cross-phosphorylated and cross-desensitized responses to CXCR1 as well as CXCR2. Taken together, these results indicate that CCR1-mediated responses are regulated at several steps in the signaling pathway, by receptor phosphorylation at the level of receptor/G protein coupling and by an unknown mechanism at the level of phospholipase C activation. Moreover selective cross-regulation among chemokine receptors is, in part, a consequence of the strength of signaling (i.e. greater phosphatidylinositol hydrolysis and sustained Ca(2+) mobilization) which is inversely correlated with the receptor's susceptibility to phosphorylation. Since many chemokines activate multiple chemokine receptors, selective cross-regulation among such receptors may play a role in their immunomodulation.
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PMID:Regulation of the human chemokine receptor CCR1. Cross-regulation by CXCR1 and CXCR2. 1073 56


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