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)

Dopamine receptors of DA-1 and DA-2 subtypes are localized in various regions within the kidney including the renal vasculature (DA-1) as well as sympathetic nerve terminals innervating the renal blood vessels (DA-2). More recent studies using receptor-ligand binding and receptor autoradiography have shown that DA-1 receptors are localized at both the luminal and basolateral membranes at the level of the proximal tubules. Activation of these DA-1 receptors by dopamine and by selective DA-1 receptor agonists results in natriuresis and diuresis. The cellular signaling mechanisms responsible for this response appear to be DA-1 receptor-induced activation of adenylate cyclase and phospholipase C, which via the generation of various intracellular messenger systems cause inhibition of Na(+)-H+ antiport (luminal) and Na+, K(+)-ATPase (basolateral), respectively. Both of these events consequently inhibit sodium reabsorption leading to natriuresis and diuresis. It is also known that dopamine can be synthesized within proximal tubular cells from L-dopa, which is taken up from the tubular lumen, and this locally produced dopamine plays an important role in the regulation of sodium excretion particularly during increases in sodium intake. Furthermore, a defect in the renal dopaminergic mechanism may be one of the pathogenic factors in certain forms of hypertension. Finally, whereas DA-1 receptor agonists are shown to be of therapeutic benefit in the treatment of hypertension, heart failure, and acute renal failure, some selective DA-2 receptor agonists are effective antihypertensive agents.
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PMID:Anatomical distribution and function of dopamine receptors in the kidney. 168 44

Essential hypertension is primarily hereditary. The property inherited is present in all cells but because of adaptation and differentiation it is particularly prominent in systemic vascular smooth muscle. This inherited property is manifested functionally as increased reactivity to vasoactive substances, such as (-)noradrenaline and angiotensin II. This abnormal function is present before the onset of hypertension. Vascular hypertrophy and hyperplasia are not only caused by hyperactivity of the smooth muscle and by the hypertension itself but are also trophic effect of the agonists, especially noradrenaline. The only two proteins in vascular smooth muscle which can produce both contractile and trophic effects are the guanosine triphosphate binding protein (Gs) and phospholipase C. Phospholipase C has already been demonstrated to be abnormally active in response to agonists in the spontaneously hypertensive rat and in human essential hypertension. The Gs protein is less likely to be critically abnormal since it is active in the vascular smooth muscle relaxation cascade as well as in contraction. None of the other proteins involved in vascular smooth muscle contraction or relaxation affect both contractile reactivity and cellular growth. There are many secondary effects dependent upon the phospholipase C abnormality such as calcium (Ca2+) cellular content, Ca2+ Mg2+ ATPase pump effects and possibly Ca2+ Na+ exchange. There are also many secondary effects impinging on the phospholipase C abnormality including changes in noradrenaline and angiotensin II metabolism. Present antihypertensive therapy is directed largely at secondary factors dependent upon or influencing the primary phospholipase C cascade. The path is now open for a more direct and basic diagnostic and therapeutic attack.
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PMID:The aetiology of essential hypertension. 177 Apr 74

Purified hematopoietic growth factors such as colony-stimulating factor-1 (CSF-1) or macrophage CSF, granulocyte-macrophage CSF, and interleukin-3 or multi-CSF, stimulate the urokinase-type plasminogen activator (u-PA) activity of murine bone marrow-derived macrophages (BMM) and resident peritoneal macrophages. Granulocyte-CSF was inactive. The increases in BMM u-PA activity were inhibited by the glucocorticoid dexamethasone, and by agents that raise intracellular cyclic adenosine monophosphate levels, including prostaglandin E2 and cholera toxin. These changes in u-PA activity were paralleled by corresponding changes in u-PA mRNA levels. Evidence was obtained for protein kinase C and phospholipase C-mediated stimulation of BMM u-PA activity and mRNA levels; however, no evidence was found for an involvement of Na+/H+ exchange or Na+, K(+)-ATPase activity, Ca2+ fluxes, or pertussis toxin-sensitive G proteins. Several findings point to a dissociation between macrophage u-PA expression and DNA synthesis.
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PMID:Activation and proliferation signals in murine macrophages. Biochemical signals controlling the regulation of macrophage urokinase-type plasminogen activator activity by colony-stimulating factors and other agents. 184 64

The effects of epidermal growth factor on Ca2+ signaling in A431 cells were investigated. Epidermal growth factor induced a transient Ca2+ signal in the absence of external Ca2+ and a sustained response in the presence of extracellular Ca2+, indicating an ability to mobilize intracellular Ca2+ as well as the ability to increase Ca2+ entry from the extracellular space. The Ca(2+)-ATPase inhibitor thapsigargin also activated Ca2+ entry, and neither epidermal growth factor nor the guanine nucleotide-dependent protein-linked receptor agonist bradykinin activated additional Ca2+ entry over that due to thapsigargin. In nominally Ca(2+)-free medium, the addition of bradykinin to A431 cells rapidly but transiently increased inositol 1,4,5-trisphosphate and, in parallel fashion, transiently increased cytosolic Ca2+. Unexpectedly, under these experimental conditions, epidermal growth factor elicited a small but significant Ca2+ signal after the addition of bradykinin. Experiments were designed to determine whether the Ca2+ response to epidermal growth factor after bradykinin results from mobilization of Ca2+ by an inositol 1,4,5-trisphosphate-independent mechanism. Epidermal growth factor stimulated additional inositol 1,4,5-trisphosphate formation in bradykinin-treated cells. Furthermore, the Ca2+ signals elicited by both bradykinin and epidermal growth factor were blocked in cells microinjected with the inositol 1,4,5-trisphosphate receptor antagonist heparin, whereas the intracellular Ca(2+)-ATPase inhibitor thapsigargin still mobilized Ca2+. Finally, histamine, a less efficacious guanine nucleotide-dependent protein-linked receptor agonist, as well as photolyzed, microinjected, caged inositol 1,4,5-trisphosphate, also mobilized Ca2+ after bradykinin. The results of this study show (i) that epidermal growth factor activates intracellular Ca2+ release as well as Ca2+ entry, the latter most likely resulting from an indirect effect due to the depletion of intracellular Ca2+ pools, (ii) that the actions of epidermal growth factor on Ca2+ homeostasis can be fully accounted for by inositol 1,4,5-trisphosphate formation, and (iii) that the ability of A431 cells to produce Ca2+ signals when epidermal growth factor is applied after bradykinin can be explained by the rapid and complete desensitization of the bradykinin stimulated phospholipase C activity.
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PMID:Role of inositol (1,4,5)trisphosphate in epidermal growth factor-induced Ca2+ signaling in A431 cells. 187 11

We have reported the presence of dopamine-1 (DA-1) and dopamine-2 (DA-2) receptors in renal brush border and basolateral membranes. DA-1 agonists stimulate adenylate cyclase (AC) and phospholipase C (PLC) activity in both membranes. Moreover, the ability of a DA-1 agonist (fenoldopam) to stimulate PLC activity is independent of AC activity. A DA-2 agonist (LY171555) by itself was without effect and did not enhance the ability of the DA-1 agonist to stimulate PLC activity. The DA-1 but not DA-2 agonists inhibit Na+/H+ exchange activity in brush border membrane vesicles (BBMV) and Na+/K(+)-ATPase activity in basolateral membranes. However, cAMP inhibits, while protein kinase C (presumably via PLC activity) stimulates, Na+/H+ exchange activity. We therefore determined the effect of DA-1 agonists on Na+/H+ exchange activity when PLC or AC activity was blocked using neomycin or dideoxyadenosine, respectively. The drugs were incubated with minced renal cortex prior to preparation of BBMV by differential centrifugation and MnCl2 precipitation. Enrichment of BBMV was not affected by drug treatment. The Na+/H+ exchange activity was assessed by measuring amiloride (1 mmol/L) sensitive 22Na+ uptake in BBMV (pHi = 5.5, pHo = 7.5, Nai+ = O, Nao+ = 1 mmol/L). Neomycin inhibited DA and DA-1-stimulated PLC activity in BBMV in a concentration dependent manner (10(-6) to 10(-4) mol/L). Neomycin (10(-4) mol/L) completely blocked the ability of DA and DA-1 agonist to stimulate PLC activity but had no consistent effect on DA-1 inhibited Na+/H+ exchange activity. Dideoxyadenosine inhibited DA and DA-1 simulated AC activity without affecting DA-1 stimulated PLC activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The signal transducer for the dopamine-1 regulated sodium transport in renal cortical brush border membrane vesicles. 197 43

The state of the lipid phase of the membrane plays a key role in the exposure of various receptors, antigens and enzymes on the membrane surface. The fluidity of membranes of Leishmania donovani promastigotes was monitored by two independent methods, i.e. influx of sterol from liposomes and removal of phospholipids by treatment with phospholipase C. The altered sterol/phospholipid ratio, in both cases, provided evidence that the activity of the functionally important membrane-bound enzyme Mg2(+)-ATPase is modulated by the state of the lipid phase of the membrane.
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PMID:Fluidity-dependent Mg2(+)-ATPase activity in membranes from Leishmania donovani promastigotes. 213 91

Inhibition of the Na(+)-K+ pump by digitalis compounds has been reported to increase intracellular Na+ and Ca2+ concentrations and to stimulate Na(+)-H+ exchange. The activity of endogenous digitalis-like compounds, proposed to promote natriuresis and to raise blood pressure, has been found to be increased in volume expansion and hypertension. The enhanced cytosolic [Ca2+] present in platelets from hypertensive patients may thus originate from inhibition of the Na(+)-K+ pump by endogenous inhibitors, enhanced mobilization of internal Ca2+ stores due to phospholipase C activation and/or structural membrane defects. In unstimulated platelets from essential hypertensives, the increase in [Ca2+]i depends on external Ca2+, thereby underlining the importance of Ca2+ influx. The observation that [Ca2+]i was also enhanced in erythrocytes (p = 0.03) demonstrates that intracellular stores are not required for this rise. Plasma digitalis-like activity was positively correlated with platelet [Ca2+]i (inhibition of renal Na+,K(+)-ATPase, competition with ouabain binding, p less than 0.01). Platelet [Ca2+]i also rose during chronic digoxin administration (p less than 0.02) but not after acute in vitro ouabain treatment. The alkalinisation of platelet cytosol (p = 0.005) also agrees with the stimulation of the Na(+)-H(+)-exchange. In conclusion, these results are compatible with a participation of endogenous Na(+)-K+ pump inhibitors in the control of cytoplasmic [Ca2+] and cell excitability.
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PMID:Endogenous inhibitors of the Na+, K(+)-pump and platelet Ca2+ handling in hypertension. 216 68

Irradiation of sunflower (Helianthus annuus L. cv. Russian Mammoth) hypocotyls with white light resulted in a 51% decrease in plasma membrane phosphatidylinositol monophosphate (PIP) kinase activity. As little as 10 s of white light irradiation was sufficient to lower the phosphatidylinositol bisphosphate (PIP2) produced in the in vitro phosphorylation assay. This decrease was not caused by an increase in phospholipase C activity since analysis of the water-soluble products indicated no increase in inositol bisphosphate or inositol trisphosphate. Treatment of the plasma membrane with 200 microM vanadate prior to phosphorylation enhanced the PIP kinase and appeared to overcome the light inhibition. In addition to decreasing the PIP kinase activity, light irradiation resulted in a corresponding decrease in the H(+)-ATPase activity to 53% of the dark control values. The plasma membrane ATPase activity increased approximately 2-fold when PIP or PIP2 was added to the isolated membranes. Thus, effects of external stimuli on the level of plasma membrane PIP or PIP2 could affect plasma membrane ATPase activity directly and thereby provide an alternative mechanism for control of cell growth.
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PMID:Rapid light-induced changes in phosphoinositide kinases and H(+)-ATPase in plasma membrane of sunflower hypocotyls. 216 92

1. Liver plasma membranes originating from the sinusoidal, lateral and canalicular surface domains of hepatocytes were covalently labelled with sulpho-N-hydroxysuccinamide-biotin. After solubilization in Triton X-114, treatment with a phosphatidylinositol-specific phospholipase C (PI-PLC), two-phase partitioning and 125I-streptavidin labelling of the proteins resolved by PAGE, six major polypeptides (molecular masses 110, 85, 70, 55, 38 and 35 kDa) were shown to be anchored in bile canalicular membrane vesicles by a glycosyl-phosphatidylinositol (G-PI) 'tail'. 2. Permeabilized 'early' and 'late' endocytic vesicles isolated from liver were also examined. Two polypeptides (110 and 35 kDa) were shown to be anchored by a G-PI tail in 'late' endocytic vesicles. 3. Analysis of marker enzymes in bile-canalicular vesicles treated with PI-PLC showed that 5'-nucleotidase and alkaline phosphatase, but not leucine aminopeptidase and ecto-Ca2(+)-ATPase activities were released from the membrane. A low release and recovery of alkaline phosphodiesterase activity was noted. The cleavage from the membrane of 5'-nucleotidase as a 70 kDa polypeptide was confirmed by Western blotting using an antibody to this enzyme. 4. Antibodies raised to proteins released from bile-canalicular vesicles by PI-PLC treatment, and purified by partitioning in aqueous and Triton X-114 phases, localized to the bile canaliculi in thin liver sections. Antibodies to proteins not hydrolysed by this treatment stained by immunofluorescence the sinusoidal and canalicular surface regions of hepatocytes. 5. Antibodies generated to proteins cleaved by PI-PLC treatment of canalicular vesicles were shown to identify, by Western blotting, a major 110 kDa polypeptide in these vesicles. Two polypeptides (55 and 38 kDa) were detected in MDCK and HepG-2 cultured cells. 6. Since two of the six G-PI-anchored proteins targeted to the bile-canalicular plasma membrane were also detected in 'late' endocytic vesicles, the results suggest that a junction where exocytic and endocytic traffic routes meet occurs in a 'late' endocytic compartment.
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PMID:Priority targeting of glycosyl-phosphatidylinositol-anchored proteins to the bile-canalicular (apical) plasma membrane of hepatocytes. Involvement of 'late' endosomes. 217 97

The effects of GABA on catecholamine release and phosphoinositide metabolism were studied in cultured bovine adrenal chromaffin cells. GABA and muscimol, a specific agonist for the GABAA receptor, each evoked a gradual secretion of catecholamines from the cells in the presence of ouabain, an inhibitor of Na+, K(+)-ATPase. This release was inhibited by bicuculline, a specific antagonist for the GABAA receptor, or by picrotoxin, a blocker of GABA-gated Cl- channels, and was potentiated by diazepam or pentobarbital. GABA or muscimol induced a concentration-dependent formation of inositol phosphates. This accumulation of inositol phosphates was also inhibited by bicuculline, picrotoxin or removal of extracellular Ca2+, and also potentiated by diazepam and pentobarbital. Nicardipine suppressed GABA-induced catecholamine release in the presence of ouabain and accumulation of inositol phosphates, while verapamil, diltiazem, and omega-conotoxin failed to inhibit these responses to GABA. The phosphoinositide-specific phospholipase C inhibitor neomycin also inhibited both GABA-induced accumulation of inositol phosphates and stimulation of catecholamine release in the presence of ouabain. These results taken together indicate that GABA evoked catecholamine release from the chromaffin cells in the presence of ouabain by stimulation of phosphoinositide metabolism in a Ca2(+)-sensitive manner via activation of GABAA receptor-coupled Cl- channels.
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PMID:Involvement of phosphoinositide metabolism in GABA-induced catecholamine release from cultured bovine adrenal chromaffin cells. 217 9


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