Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0043167 (pertussis)
19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We examined the intracellular signal transduction of two endothelin receptor subtypes (ETA and ETB) by transfection and stable expression of individual receptor cDNAs in Chinese hamster ovary cells. Both receptors showed a rapid and marked stimulation of phosphatidylinositol hydrolysis and arachidonic acid release in response to agonist interaction. The two receptors, however, exhibited different responses in the cyclic AMP transduction cascades. ETA mediated the accumulation of cyclic AMP formation, whereas ETB displayed an inhibitory action on the forskolin-stimulated cyclic AMP accumulation. In both receptors, the responses of phosphatidylinositol hydrolysis, arachidonic acid release, and cyclic AMP formation were induced in complete agreement with the endothelin-binding selectivity of each receptor subtype. Endothelin, added together with GTP, activated the adenylate cyclase activity in membrane preparations of ETA-expressing cells, indicating the direct linkage of ETA to the adenylate cyclase system. Pertussis toxin treatment of ETA-expressing cells resulted in partial inhibition of the endothelin-induced cyclic AMP accumulation, whereas the same treatment of ETB-expressing cells completely abolished the endothelin-induced inhibition of cyclic AMP formation. Thus, the two endothelin receptor subtypes are coupled to multiple but distinct signal transduction cascades through different G proteins.
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PMID:Coupling of two endothelin receptor subtypes to differing signal transduction in transfected Chinese hamster ovary cells. 131 97

In studies of the regulation of parathyroid hormone (PTH) signal transduction, we observed that the peptide endothelin-1 (ET) added prior to PTH greatly increased the calcium transients elicited by PTH in UMR-106 osteosarcoma cells and mouse primary osteoblastic cells. Enhancement by ET also occurred in the presence of EGTA. The ETB receptor-specific agonist sarafotoxin 6c (S6c) likewise enhanced PTH-induced Ca2+ transients. Blocking the ETA receptor-mediated component of the ET signal with BQ123 failed to abolish enhancement of PTH responses by ET. The nonselective ETA/ETB receptor antagonist PD 142893 blocked both ET and S6c-induced enhancement of the PTH responses. Prostaglandin F1 alpha (PGF1 alpha) pretreatment also maximally potentiated PTH responses, whereas alpha-thrombin, epidermal growth factor (EGF), or prostaglandin E1 (PGE1) did not affect the PTH responses. Neither active phorbol ester nor forskolin mimicked the ET effect. The ET effect was not prevented by indomethacin, NG-mono-methylarginine, genistein, pertussis toxin, 4-aminopyridine, tetraethylammonium chloride, okadaic acid, or long-term treatment with phorbol-12,13-dibutyrate. ET pretreatment did not abolish the inhibition of PTH signals by PTH(3-34), although in ET-pretreated cells the suppression of the PTH signal by PTH(3-34) was not as great. ET pretreatment did not enhance the cAMP response to PTH; rather, there was a significant inhibition of the cAMP response. Thus, the calcium signal elicited by PTH is selectively modulated by activation of the ETB receptor.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:EndothelinB receptor activation enhances parathyroid hormone-induced calcium signals in UMR-106 cells. 750 6

Endothelin acts via specific membrane-bound receptors through signal transduction pathways that include increases in intracellular free calcium and inositol triphosphate generation. Two endothelin receptors have been cloned. The ETA receptor is ET-1 selective, and the ETB receptor is isopeptide nonselective. Both receptor subtypes are widely distributed throughout the body, although ETA receptors predominate in vascular smooth muscle, whereas ETB receptors predominate in the brain. The presence of mixed receptor subtypes makes functional screening of subtype-specific analogues difficult. A eukaryotic expression vector was constructed by inserting the cloned coding region of the human ETB receptor downstream from the Rous sarcoma promoter. COS-7 cells were transfected with this construct, and cell lines were isolated with stably integrated copies of the relevant gene. One line, 1C7, was shown to specifically bind 125I-ET-1. Scatchard analysis indicated a Kd value of 8.8 pM and a Bmax value of 1.02 pM/mg. ET-1 stimulated phosphoinositide hydrolysis in a dose-dependent manner, as did ET-3, sarafotoxin 6c, and [1,3,13,15Ala]ET-1, whereas BQ123, a selective ETA receptor antagonist, did not inhibit the action of ET-1. The transfected receptor stimulates phosphoinositide (PI) hydrolysis via a pertussis-sensitive pathway. Pretreatment of the membrane from 1C7 cells with dithio-bis-nitrobenzoic acid (DTNB) a negatively charged, nonpenetrating agent capable of oxidizing sulfhydryl groups, and N-ethyl-maleimide (NEM), a penetrating agent that causes irreversible alkylation of sulfhydryl groups, significantly reduces Bmax but has no effect on Kd. In whole cells, DTNB pretreatment abolishes the ability of ET-1 to stimulate PI hydrolysis.
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PMID:COS-7 cells stably transfected to express the human ETB receptor provide a useful screen for endothelin receptor antagonists. 750 82

Effects of endothelin-1 (ET-1) and endothelin-3 (ET-3) on cyclic AMP (cAMP) levels were studied in the isolated rat anterior and intermediate-posterior pituitary slices. In the anterior pituitary, ET-1 increased cAMP levels in a concentration-dependent manner (10(-7)-10(-5) M). ET-3 also increased the levels at the same concentration range, but ET-1 was more potent than ET-3 at an approximate ED50, 10(-6) M. The stimulatory effects of ET-1 and ET-3 (10(-6) M) on cAMP levels were antagonized by the ETA receptor antagonist BQ 123, 2 x 10(-6) M, and the ETB receptor agonist IRL 1620 evoked only a weak increase in cAMP levels. Moreover, the effects of ET-1 and ET-3 were completely abolished by the cyclooxygenase inhibitor indomethacin, 2 x 10(-5) M. On the other hand, among prostaglandins, prostaglandin E2 (PGE2) increased cAMP levels in a concentration-dependent manner (10(-7)-10(-5) M), whereas prostaglandin D2 and prostaglandin I2 did not exhibit such effects. PGE2 levels were increased by application of ET-1 (10(-8)-10(-5) M). The ET-1-induced PGE2 accumulation was strongly inhibited by indomethacin and BQ 123, but not by treatment with pertussis toxin (100 ng/ml, 6 hr). Treatment with the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine also elevated the cAMP level by approximately 9-fold above the basal cAMP level. After 3-isobutyl-1-methylxanthine, ET-1 failed to increase PGE2 and cAMP levels. In the intermediate-posterior pituitary, ET-1 and ET-3 did not affect cAMP levels. The results suggest that endothelins increase cAMP levels via ETA receptor activation interacting with the pertussis toxin-insensitive G-protein, in which PGE2 production is involved in the rat anterior pituitary, whereas endothelins lack these effects in the intermediate-posterior pituitary.
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PMID:Endothelins stimulate cyclic AMP accumulation in the isolated rat anterior pituitary gland: possible involvement of ETA receptor activation and prostaglandin E2 production. 751 15

Using front-surface fluorometry and fura-2, the effect of endothelin (ET) on the cytosolic Ca concentration, (Ca)i, in smooth muscle cells and endothelial cells was determined. Both the contraction of smooth muscle cells and the release of endothelium-derived relaxing factor (EDRF) from endothelial cells are regulated by changes in (Ca)i. During contractions induced by U-46619, a thromboxane A2 analog, low doses of ET-1 induced an EDRF-dependent reduction of (Ca)i and force in porcine coronary arterial smooth muscles. Using porcine aortic valvular strips, we recorded the signals of (Ca)i in endothelial cells in situ. ET-1 induced an influx of Ca, which was markedly inhibited by pertussis toxin (IAP), thus indicating that this influx was regulated by an IAP-sensitive G-protein. BQ-123, a selective ETA receptor antagonist, partially inhibited the elevation of (Ca)i induced by ET-1, but did not affect the elevation of (Ca)i induced by ET-3. The sequence of cDNA encoding the porcine ETA receptor has been previously determined, and RT-PCR confirmed that ETA receptor mRNA was present in the endothelial cells on the aortic side of the valvular strips. Therefore, in addition to ETB receptors, functioning ETA receptors and ETA receptor mRNA can also be found in endothelial cells in situ. Thus, ET-1 may play an important role in controlling the coronary artery tonus not only by acting directly on smooth muscle cells to increase the force in a paracrine manner, but also by acting on endothelial cells to release EDRF in an autocrine manner, resulting in relaxation of smooth muscle cells.
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PMID:The effects of endothelin on vascular tonus. 758 Oct 32

We have studied whether endothelin (ET) isopeptides have any effects on adenylate cyclase activity via different guanyl nucleotide-binding proteins (G-proteins) in cultured rat vascular smooth muscle cells (VSMC) and bovine endothelial cells (EC). Northern blot analysis clearly demonstrated gene expression of ETA receptors in VSMC and ETB receptors in EC. ET-1 dose-dependently (10(-9)-10(-6) M) stimulated cAMP formation in VSMC, whose effect was inhibited completely by ETA receptor antagonist (BQ-123) but not by indomethacin or quinacrine. The ET-1-induced cAMP formation was additive with isoproterenol but not with cholera toxin. In contrast, ET-3 and ETB receptor agonist (BQ-3020) dose-dependently (10(-9)-10(-6) M) inhibited forskolin-stimulated cAMP formation in EC, whose effect was completely abolished by pertussis toxin. Cholera toxin ADP ribosylated 45- and 52-kilodalton proteins in VSMC, whereas pertussis toxin ADP ribosylated the 41-kilodalton protein in EC. These data suggest that, in addition to phospholipase C via Gq, ETA and ETB receptor subtypes are functionally coupled to adenylate cyclase, possibly via Gs in VSMC and Gi in EC, respectively.
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PMID:Endothelin receptor subtypes are coupled to adenylate cyclase via different guanyl nucleotide-binding proteins in vasculature. 767 93

Endothelins (ET) produce endothelium-dependent vasodilation through nitric oxide (NO) synthesis. The present study was designed to elucidate the cellular mechanism by which ET induces synthesis and release of endothelium-derived NO by cultured bovine endothelial cells (EC). Binding studies revealed that bovine EC membrane had the binding sites of a novel agonist (BQ3020) for non-isopeptide-selective receptor subtype (ETB). Affinity labeling studies showed a major labeled band with the apparent molecular mass of 50 kD. Northern blot analysis demonstrated the expression of mRNA for ETB receptor. BQ3020 rapidly and dose dependently induced formation of inositol-1,4,5-triphosphate and increased intracellular Ca2+ concentrations in fura-2-loaded cells. Concomitantly, BQ3020 dose dependently stimulated production of both nitrate/nitrite (NOx) and cyclic GMP; a highly significant correlation existed between NOx and cGMP production. The stimulatory effect on NOx and cGMP production by ETB agonist was inhibited by NO synthase inhibitor monomethyl-L-arginine; this effect was reversed by coaddition of L-arginine, but not D-arginine. NOx and cGMP production stimulated by BQ3020 was inhibited by pretreatment with pertussis toxin. ETB agonist-induced NOx production was blocked by a calmodulin inhibitor and an intracellular Ca2+ chelator, but not by an extracellular Ca2+ chelator or a Ca2+ channel blocker. These data suggest that endothelins stimulate ETB receptor-mediated phosphoinositide breakdown via pertussis toxin-sensitive G-protein(s), which triggers release of intracellular Ca2+, thereby activating Ca2+/calmodulin-dependent NO synthase in EC.
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PMID:Endothelin receptor subtype B mediates synthesis of nitric oxide by cultured bovine endothelial cells. 768 70

Endothelin (ET) peptides are potent growth factors that bind to G protein-coupled receptors. Although short-term signals activated by ET receptors have been extensively characterized, relatively little is known about mitogenic signal transduction. We investigated the ET receptor subtype involved in mitogenic signaling in glomerular mesangial cells and the role of protein kinase C (PKC) and protein tyrosine kinase (PTK) activity. Pertussis toxin attenuates increases in [Ca2+]i by ET-1 but not [3H]thymidine uptake. An ETA-selective receptor antagonist, BQ 123, blocks increments in [Ca2+]i by ET-1 and inhibits [3H]thymidine uptake. A nonselective ETA-ETB receptor antagonist (PD 142893) blocked [3H]thymidine uptake, but ETB receptor-selective agonists (S6c and [Ala1,Ala3,Ala11,Ala15]ET-1(6-21)) were unable to increase [Ca2+]i or [3H]thymidine uptake. Collectively, these data suggest that mitogenic signaling occurs through an ETA receptor subtype in mesangial cells. Experiments with both PKC inhibition and depletion demonstrate that PKC was necessary but not sufficient for mitogenic signaling. ET-1 increased tyrosine phosphorylation of cellular proteins in quiescent mesangial cells that was blocked by preincubation with herbimycin A. Two chemically and mechanistically dissimilar PTK inhibitors (herbimycin A and genistein) blocked [3H]thymidine uptake by ET-1. In addition, herbimycin A attenuated c-fos induction, AP-1 DNA binding, and transcription directed by an AP-1 cis-element in response to ET-1. Taken together, these data suggest that mitogenic signaling by ET-1 also involves a PTK-based mechanism. We further demonstrated that ET-1 stimulated autophosphorylation of pp60c-src and pp60c-src-catalyzed phosphorylation of a peptide substrate specific for PTK activity. That the dose-response relationship for ET-1-induced pp60c-src activation and [3H]thymidine uptake were similar suggests that these events might be functionally linked. Thus, cross-talk between G protein-coupled receptors and nonreceptor PTK such as pp60c-src might be involved in transcriptional regulation and mitogenic signaling by ET-1.
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PMID:Protein kinase C and protein tyrosine kinase activity contribute to mitogenic signaling by endothelin-1. Cross-talk between G protein-coupled receptors and pp60c-src. 768 50

Endothelin (ET) potently inhibits arginine vasopressin (AVP)-induced adenosine 3',5'-cyclic monophosphate (cAMP) accumulation and Na-K-adenosinetriphosphatase (Na-K-ATPase) activity in the inner medullary collecting duct (IMCD). At least two types of ET receptors exist: ETA [binds ET-1 > ET-3 = sarafotoxin S6c (S6c)] and ETB (binds ET-1 = ET-3 = S6c). We examined which of these receptors mediates biological actions of ET in freshly isolated rat IMCD cells. Binding studies revealed comparable displacement of 125I-ET-3 by ET-1, ET-3, and S6c, whereas 125I-ET-1 was displaced by ET-1 >> ET-3 = S6c. Together, these studies confirm the presence of receptors in the IMCD with ETA and ETB binding characteristics. ET-1, ET-3, and S6c were equipotent in reducing AVP-stimulated cAMP accumulation. BQ-123, at concentrations selective for ETA receptor antagonism, did not alter the effect of ET-1, ET-3, or S6c. Pertussis toxin or protein kinase C blockade, but not indomethacin, inhibited the effect of ET-1 and S6c on AVP-stimulated cAMP accumulation, consistent with activation of the same signal transduction pathways. ET-1 and S6c were equipotent in reducing forskolin-stimulated cAMP accumulation, ruling out inhibition of AVP-receptor interaction as a common mechanism of action. Finally, ET-1, ET-3, and S6c caused comparable stimulation of prostaglandin E2 (PGE2) accumulation, an effect that was not blocked by BQ-123. These data indicate that an ETB-like receptor mediates ET stimulation of PGE2 and inhibition of AVP-enhanced cAMP accumulation in the IMCD. The function of the ETA-like receptor in the IMCD remains to be determined.
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PMID:Endothelin B receptor mediates ET-1 effects on cAMP and PGE2 accumulation in rat IMCD. 769 6

The endothelin (ET) family of peptides acts via two subtypes of guanine nucleotide-binding regulatory protein (G protein)-coupled receptors termed ETA and ETB. ET-1 stimulated cAMP formation in Chinese hamster ovary (CHO) cells stably expressing human wild-type ETA (CHO/hETA cells) while it inhibited cAMP formation in CHO cells expressing human wild-type ETB (CHO/hETB cells), and pharmacological evidence indicated that the opposite effects were due to the selective coupling of each receptor subtype with G alpha s/G alpha i. To find out a receptor domain(s) that determined the selective coupling, a series of chimeric receptors between hETA and hETB was expressed on CHO cells, and the effect of ET-1 on cAMP formation in each cell line was tested. hETA with the replacement of second and/or third intracellular loop (ICLII and/or -III) to the corresponding region(s) of hETB failed to transmit the stimulatory effect of ET-1. hETB with the replacement of ICLIII to the corresponding region of hETA failed to transmit the inhibitory effect of ET-1. A chimeric receptor with ICLII of hETB and with ICLIII of hETA failed to transmit both effects. In cells expressing chimeric receptors with ICLII of hETA and with ICLIII of hETB, ET-1 inhibited cAMP formation while it stimulated cAMP formation when cells were pretreated with pertussis toxin. These results indicated the roles of ICLII and -III of hETR as a major determinant of the selective coupling of hETA and hETB with G alpha s/G alpha i, respectively. We also demonstrated that each receptor subtype expressed on the same cell could work independently, i.e. for hETA to activate G alpha s and for hETB to activate G alpha i, resulting in dose-dependent dual effects of ET-1 on cAMP formation.
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PMID:Structural basis of G protein specificity of human endothelin receptors. A study with endothelinA/B chimeras. 773 Mar 10


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