UMLS:C0043167 - FACTA Search

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

Angiotensin II (ANG II) was shown to modulate transport in the renal proximal tubule through both inhibition of adenylate cyclase and protein kinase C (PKC) activation. We evaluated the effects of ANG II on adenosine 3',5'-cyclic monophosphate (cAMP) content and Na-H exchange activity (amiloride-sensitive Na influx) in two strains of opossum kidney (OK) cells originating from different sources, OK-VD and OK-RR cells. In OK-VD cells, ANG II inhibited basal and parathyroid hormone (PTH)-induced cAMP generation in a pertussis toxin-sensitive manner and reversed PTH inhibition of Na-H exchange. These effects of ANG II were prevented by PD 123319, a selective nonpeptide antagonist of AT2 receptors. In contrast, DuP 753, which antagonizes selectively AT1 receptors, had no effect. In OK-RR cells, ANG II had no effect on cAMP content and decreased Na-H exchange activity. The effect of ANG II persisted in the presence of PTH but was abolished by PKC downregulation and by DuP 753, but not by PD 123319. In conclusion, two types of ANG II receptors, coupled to distinct signaling pathways, were expressed independently in OK cells originating from two different sources and mediated opposite effects of ANG II on Na-H exchange activity. Those models provide a powerful tool for studying the intracellular steps involved in the tubular effects of ANG II and to evaluate the effect of pharmacological inhibitors of ANG II binding to its receptors.
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PMID:Modulation of Na-H exchange activity by angiotensin II in opossum kidney cells. 133 86

The selective angiotensin (ANG II) antagonists losartan (DuP 753) and PD 123319 have been shown to bind selectively to AT1 and AT2 subtypes, respectively. To characterize ANG II receptor subtypes in mesangial cells, washed membranes were incubated with 0.1 to 0.5 nM 125I-ANG II and increasing concentrations of competitors. The inhibition of 125I-ANG II binding by losartan and PD 123319 was biphasic, and LIGAND curve-fitting analysis revealed two populations of specific binding sites. One subpopulation comprised 86% of the total and showed high affinity for ANG II and losartan, but low affinity for the AT2 antagonists PD 123319 and CGP42112A, and thus appear identical to the recently cloned AT1 subtype. The remaining 14% of the sites showed nearly 100-fold lower affinity for losartan and 10,000-fold higher affinity for PD 123319 relative to AT1 sites. However, another AT2-selective antagonist, CGP42112A, showed little affinity for these sites. Both classes of binding sites were inhibited by guanosine 5'-O-(3-thiophosphate) and pertussis toxin treatment. We propose that there are two distinct G protein-coupled ANG II receptor subtypes (AT1A and AT1B) present in renal mesangial cells.
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PMID:Angiotensin II receptor subtypes in cultured rat renal mesangial cells. 141 69

Angiotensin II (AT) receptor subtypes (AT1, selectively displaced by DuP 753, and AT2, selectively displaced by PD123177 and CGP42112A) were characterized by quantitative autoradiography after incubation with the AT agonist 125I-Sar1-AT, in specific brain nuclei of young (2-week-old) rats. Binding to AT1 receptors was sensitive (decreased affinity) to incubation in the presence of guanosine 5'-O-(3-thio)triphosphate (GTP gamma S). Only the AT1 receptors in the paraventricular nucleus were sensitive to pertussis toxin, indicating the possibility of the existence of AT1 receptor subtypes. The sensitivity of AT2 receptors to GTP gamma S was heterogeneous. In the ventral thalamic and medial geniculate nuclei and in the locus coeruleus, binding to AT2 receptors was sensitive to GTP gamma S and to pertussis toxin pretreatment. Conversely, in the inferior olive, binding was insensitive to GTP gamma S and to pertussis toxin pretreatment. We propose the nomenclature of AT2A receptors for those receptors sensitive to guanine nucleotides and pertussis toxin and that of AT2B receptors for those showing no sensitivity to guanine nucleotides or pertussis toxin treatment.
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PMID:Heterogeneity of angiotensin II AT2 receptors in the rat brain. 153 9

Tumor cell locomotion is an integral part of the metastatic process. We present a new autocrine motility factor (AMF) derived from the serum-free conditioned medium of the Dunning R-3327 rat prostate adenocarcinoma AT2.1 tumor cell subline AT2.1-AMF, prepared by concentration of components less than or equal to 30 kDa- in size and washed free of low-molecular-weight growth factors, stimulated motility of AT2.1 cells in modified Boyden chamber migration assays. This stimulated migration was dose-dependent, and by checkerboard analysis was both chemotactic and chemokinetic. AT2.1-AMF activity was labile to heat, acid, base, reduction, oxidation, and proteases. Lyophilization and treatment with 6M urea caused a mild decrease (less than 20%) in migration-stimulating capability. Tumor-cell specificity was demonstrated for AMF of AT2.1 and AT3.1 Dunning sublines, and the A2058 human melanoma cell lines. AT2.1 cell migration to AT2.1-AMF was inhibited by 2 hr pre-treatment with cholera toxin (0.1 microgram/ml) or forskolin (100 microM), but not altered by 2 hr pre-treatment with pertussis toxin (1.0 microgram/ml). This indicates that guanine nucleotide binding protein-mediated regulation of cAMP is involved in modulating the AT2.1 cell response to its AMF. The AT2.1-AMF belongs to a related family of tumor autocrine motility factors and represents a new model for understanding the role of tumor-cell migration in the metastatic process of human prostate cancer.
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PMID:An autocrine motility factor secreted by the Dunning R-3327 rat prostatic adenocarcinoma cell subtype AT2.1. 187 63

Complementary DNAs for angiotensin II type 1 receptor isoforms AT1A and AT1B were cloned by expression cloning from bovine adrenal and rat vascular smooth muscles. Human AT1 receptor was also cloned. Seven transmembrane structures emerged. The AT1 type receptor interacted with more than one type of G-proteins. The ligand binding site of AT1 involving Arg167, Lys199, and Asp263 has been identified by site directed mutagenesis. The regulation of the receptors occur at many stages. The isoform, AT2, was also expression cloned from rat pheochromocytoma cells. Although its ligand binding is not affected by stable GTP analogs, it is a seven transmembrane domain receptor. It mediates the modulations of phosphotyrosine phosphatase by angiotensin II and AT2 specific CGP42112A. The modulation was abolished by pertussis toxin. Thus, AT2 belongs to a new class of angiotensin receptors with unique signalling and regulatory mechanisms. AT1 mediates cellular growth. Interestingly, AT2 expression is inversely related to the mitogenic activity of cells.
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PMID:Cloning, expression and regulation of angiotensin II receptors. 748 33

Two major isoforms of angiotensin II receptors, AT1 and AT2, have been defined on the basis of their ligand selectivity. While AT1 is known to mediate typical biological actions of angiotensin II as a cardiovascular regulator, the biological function of AT2 has not yet been established. In the present study using a rat pheochromocytoma cell line, which expresses AT2 exclusively, we found that angiotensin II inhibits phosphotyrosine phosphatase activity in vivo as measured by the inhibition of hydrolysis of [32P]-phosphate from the 32P-labeled synthetic peptide substrate, Raytide. This phosphotyrosine phosphatase inhibition was completely reversed by pertussis toxin, which indicates a G-protein coupled mechanism. In SDS-polyacrylamide gel electrophoresis we found that the phosphotyrosine group of an 85 kDa protein was a substrate mainly preserved, presumably as a consequence of the plausible intracellular phosphotyrosine phosphatase inhibition by angiotensin II.
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PMID:Protein tyrosine phosphatase inhibition by angiotensin II in rat pheochromocytoma cells through type 2 receptor, AT2. 750 23

Bovine fasciculata cells in culture (BAC) express both AT1 and AT2 angiotensin receptors. The role and signaling pathways of this latter receptor are still the subject of debate. We found that in BAC stimulation of cortisol (F) production by angiotensin II (A II) is accounted for by both receptor subtypes. We have investigated the potential AT2 signalling pathways involved in this response. As previously described in other cells, we found this receptor to mediate inhibition of ANP stimulated cGMP production through a phosphodiesterase independent pathway. This phenomenon does however not appear to be involved in cortisol production as this response was not affected by the addition of 8-Br-cGMP or ANP. It was however abolished after down-regulation of PKC by phorbol esters, but not by Gi inhibition with pertussis toxin. Moreover and as opposed to the AT1 mediated response, AT2 receptor stimulation potentiated K+ induced F production. In conclusion, these observations suggest that the AT2 pathway which mediates F production requires intact PKC and might involve a Gi independent stimulation of Ca++ or K+ channels.
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PMID:Stimulation of cortisol production through angiotensin AT2 receptors in bovine fasciculata cells. 758 79

In bovine adrenal zona fasciculata (AZF) cells, angiotensin II (AII) may stimulate depolarization-dependent Ca2+ entry and cortisol secretion through inhibition of a novel potassium channel (IAC), which appears to set the resting potential of these cells. Aspects of the signaling pathway, which couples AII receptors to membrane depolarization and secretion, were characterized in patch clamp and membrane potential recordings and in secretion studies. AII-mediated inhibition of IAC, membrane depolarization, and cortisol secretion were all blocked by the AII type I (AT1) receptor antagonist losartan. These responses were unaffected by the AT2 antagonist PD123319. Inhibition of IAC by AII was prevented by intracellular application of guanosine 5'-O-2-(thio)-diphosphate but was not affected by pre-incubation of cells with pertussis toxin. Although mediated through an AT1 receptor, several lines of evidence indicated that AII inhibition of IAC occurred through an unusual phospholipase C (PLC)-independent pathway. Acetylcholine, which activates PLC in AZF cells, did not inhibit IAC. Neither the PLC antagonist neomycin nor PLC-generated second messengers prevented IAC expression or mimicked the inhibition of this current by AII. IAC expression and inhibition by AII were insensitive to variations in intracellular or extracellular Ca2+ concentration. AII-mediated inhibition of IAC was markedly reduced by the non-hydrolyzable ATP analog adenosine 5'-(beta, gamma-imino)triphosphate and by the non-selective protein kinase inhibitor staurosporine. The protein phosphatase antagonist okadaic acid reversibly inhibited IAC in whole cell recordings. These findings indicate that AII-stimulated effects on IAC current, membrane voltage, and cortisol secretion are linked through a common AT1 receptor. Inhibition of IAC in AZF cells appears to occur through a novel signaling pathway, which may include a losartan-sensitive AT1 receptor coupled through a pertussis-insensitive G protein to a staurosporine-sensitive protein kinase. Apparently, the mechanism linking AT1 receptors to IAC inhibition and Ca2+ influx in adrenocortical cells is separate from that involving inositol trisphosphate-stimulated Ca2+ release from intracellular stores. AII-stimulated cortisol secretion may occur through distinct parallel signaling pathways.
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PMID:Losartan-sensitive AII receptors linked to depolarization-dependent cortisol secretion through a novel signaling pathway. 767 18

Angiotensin II isoform 1 (AT1) receptor cDNAs were cloned by expression cloning from bovine adrenal and rat vascular smooth muscles. Human AT1 receptor was also cloned. Seven transmembrane structures emerged. A single type of receptor seems to interact with more than one type of G-protein. AT1 consists of subtypes AT1A and AT1B, and the regulation of the receptors occurs at many stages. The isoform AT2 was also expression cloned from rat pheochromocytoma cells. Although its ligand binding is not affected by GTP analogs, it is a seven transmembrane domain receptor. It mediates the inhibition of phosphotyrosine phosphatase by angiotensin II and AT2 specific CGP42112A; the inhibition was abolished by pertussis toxin. Thus, AT2 belongs to a new class of angiotensin receptors with unique signalling and regulatory mechanisms.
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PMID:Cloning, expression and regulation of angiotensin II receptors. 771 98

To identify the mechanisms of action of isoforms angiotensin II receptors (AT1A, AT1B, and AT2) and to overcome the difficulties encountered in attempts to purify the receptors, we have expression-cloned their cDNAs from bovine and rat sources and isolated human cDNA and rat and human genomic DNA. The AT1A and AT1B cDNAs were found to encode respective receptor proteins with 359 amino acid residues, whereas, AT2 encodes a 363 amino acid residue receptor protein. Both AT1 and AT2 were found to conform with the seven transmembrane receptor structural motif, but showed only 32% amino acid residue identity to each other. The AT1 receptor was shown to be coupled to, at least, three different G proteins activating phospholipase C, inhibiting adenylyl cyclase and opening an L-type Ca(2+)-channel, whereas, AT2 was found to inhibit a phosphotyrosine phosphatase activity without affecting guanylyl cyclase by a pertussis-toxin-sensitive, presumably G-protein-mediated mechanism.
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PMID:Angiotensin II receptors: cloning and expression. 774 65

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