UMLS:C0004135 - FACTA Search

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Query: UMLS:C0004135 (ATM)
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Mesangial cells possess a variety of receptors for hormones and autacoids. They are also equipped with ectoenzymes whose function may be to control the availability of autacoids and hormones at their receptor sites. Several examples are considered. Receptors for angiotensin II (AII) are present both on murine and human mesangial cells. One single group of receptors has been demonstrated in each of these preparations. Mesangial cell AII receptors are linked to phospholipase C via a G protein. They belong to the AT1 subtype because (125I)AII is displaced from its binding sites preferentially by AT1 antagonists such as DUP 753 and EXP 3,174, whereas AT2 antagonists are much less potent. AT1 antagonists suppress the biological effects of AII in mesangial cells, including the stimulation of intracellular calcium concentration and the increase of prostaglandin synthesis and of (3H)leucine incorporation. Mesangial cells also have receptors for atrial natriuretic factor, but the distribution between B receptors with guanylate cyclase activity and clearance (C) receptors varies with the species. Both types are present in murine mesangial cells, whereas only C receptors are found in human mesangial cells. In contrast, human epithelial cells possess both B and C receptors. Ecto-5'-nucleotidase activity results in the production of adenosine, which acts on mesangial cells through A1 and A2 receptors. This enzyme is markedly induced in rat mesangial cells by interleukin-1, whose effect is mediated in part by prostaglandin E2 and cAMP. Various other cAMP-stimulating agents also induce 5'-nucleotidase expression in rat mesangial cells. Ectopeptidases are present in all glomerular cell types but essentially in epithelial cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cell surface receptors and ectoenzymes in mesangial cells. 131 10

Angiotensin-II (A-II) receptor subtypes and their potential coupling mechanisms were investigated in bovine adrenal fasciculata cells (BAC) in culture, by the use of selective antagonists for AT1 (DUP 753 or Losartan) and AT2 (PD 123177 and CGP 42112A) sites. Competition for [125I]A-II specific binding with AT1 or AT2 selective ligands produced a biphasic displacement curve, suggesting two distinct A-II binding sites. In the presence of PD 123177 (10(-5) M), a concentration at which most of the AT2 sites were saturated, DUP 753 displaced [125I]A-II specific binding in a monophasic manner with an IC50 of 6.2 +/- 1.4 x 10(-7) M. In the presence of DUP 753 (10(-5) M), the displacement produced by CGP 42112A and PD 123177 was also monophasic, with IC50s of 8 +/- 3 x 10(-10) and 4.6 +/- 2.1 x 10(-7) M, respectively. The reducing agent dithio-1,4-erythritol inhibited the binding of [125I]A-II to AT1 (DUP 753 sensitive) sites, but increased its binding to AT2 sites 2-fold. The IC50 values for these two effects were about 0.5 and 3 mM, respectively. The biological effects of A-II in BAC, phosphoinositide hydrolysis and cortisol production, were inhibited in a dose-dependent manner by DUP 753, but not by AT2 antagonists. Similarly, the potentiating action of A-II on corticotropin-induced cAMP production was blocked by DUP 753, but not by AT2 antagonists. These data indicate that BAC contain both receptor subtypes, but that all the known effects of A-II in BAC were induced via the AT1 receptor subtype.
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PMID:Characterization and coupling of angiotensin-II receptor subtypes in cultured bovine adrenal fasciculata cells. 132 66

We have shown previously that angiotensin-II (A-II) controls proto-oncogene (c-fos, jun-B and c-jun) mRNA accumulation in bovine adrenal fasciculata cells (BAC). Since BAC contain both subtypes (AT-1 and AT-2) of the A-II receptor, we have investigated which subtype was involved in the effect of A-II on proto-oncogene mRNA by using a selective antagonist for AT-1 (DUP 753) and for AT-2 (CGP 42112A). DUP 753, but not CGP 42112A, inhibited the stimulatory effect of A-II on proto-oncogene mRNA, with ID50s of 4 x 10(-7) M, 7 x 10(-7) M and 2 x 10(-6) M for c-fos, jun-B and c-jun, respectively. Neither of the two antagonists by themselves had a direct effect on proto-oncogene mRNA. As the A-II AT-1 receptors are coupled to the phospholipase C system in BAC, we have investigated whether the A-II effects on the proto-oncogenes were mediated by protein kinase C (PKC) or by Ca2+ calmodulin. First, activation of PKC by the phorbol ester, PMA, increased the level of three proto-oncogene mRNAs, whereas calcium ionophore had no effect. Second, staurosporine, a specific inhibitor of PKC, reduced the stimulatory action of A-II on proto-oncogene mRNA by 80-90%, whereas trifluoroperazine, an inhibitor of calmodulin, had no significant effect. These results demonstrate that the effects of A-II on proto-oncogene mRNA are mediated by AT1 receptor subtypes, mainly through activation of the PKC pathway.
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PMID:Angiotensin-II-induced expression of proto-oncogene (c-fos, jun-B and c-jun) mRNA in bovine adrenocortical fasciculata cells (BAC) is mediated by AT-1 receptors. 142 67

The effects of angiotensin II (AII) and related peptides on the mobilization of internal Ca2+ were studied in a subclone of NG 108-15 cells. The subclone, C1, was prepared by fluorescence-activated cell cloning using a rapid response kinetics and a large response magnitude following stimulation by AII as the selection criteria. Angiotensin I, AII, and angiotensin III (AIII) stimulated Ca2+ mobilization in the C1 cells in a concentration-dependent manner (1 nM-100 microM), yielding EC50 values of 437 +/- 80 nM (n = 4; slope = 1.6 +/- 0.3), 57 +/- 8 nM (n = 12; slope = 1.5 +/- 0.3), and 36 +/- 5 nM (n = 7; slope = 1.4 +/- 0.3), respectively. AIII was significantly more potent than AII (p less than 0.05). In contrast, Des-Phe8-AII, AII-hexapeptide (AII 3-8), and p-NH2-Phe6-AII (1-10 microM) were inactive as agonists. Although the effects of AII and AIII in C1 and parent NG108-15 cells were totally inhibited by the AT1 receptor-selective nonpeptide antagonist, DUP-753 (0.3-1 microM), the AT2-selective antagonists, EXP-655 and CGP42112A (1-10 microM), failed to block the effects of AII. DUP-753 (0.3-100 nM) produced dextral shifts of the AII-induced concentration-response curves and yielded an estimated affinity constant (pA2) of 8.5 +/- 0.2 (n = 16) using single-point analysis involving different concentrations of DUP-753. These data compared well with those obtained for the inhibition of AII-induced aortic contractions by DUP-753 (pA2 = 8.5) reported previously by others.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:AT1 angiotensin receptors mobilize intracellular calcium in a subclone of NG108-15 neuroblastoma cells. 156 Feb 41

The angiotensin II (ANG II) receptor has recently been shown to exhibit subtypes with respect to antagonist binding. Of particular interest are the potent nonpeptide antagonists, DUP 753 and PD 121981, which exhibit selectivity for the subtype 1 (AT1) and subtype 2 (AT2) receptors, respectively. We used these high-affinity antagonists in competition with 125I-[Sar1,Ile8]ANG II to determine autoradiographically the distribution of these ANG II-receptor subtypes in the renal cortex of rats and rhesus monkeys. Binding of the radioligand to receptor in sections of rat renal cortex was inhibited by DUP 753; inhibition by PD 121981 was not detected. By contrast, AT1 and AT2 receptors are present in the renal cortex of rhesus monkeys in regionally distinct structures. DUP 753 inhibited binding to the ANG II receptor in glomeruli. PD 121981 inhibited binding to arterial smooth muscle and the juxtaglomerular (JG) apparatus. The JG apparatus also exhibits radioligand binding, which is inhibited by DUP 753. The effect of DUP 753 and PD 123177 (a more water-soluble analogue of PD 121981) on changes in plasma renin activity was examined to determine if one or both of these subtypes participate in the ANG II-mediated negative feedback of control of renin release. Although DUP 753 increased plasma renin activity to the same extent as the angiotensin-converting enzyme inhibitor, enalaprilat, in rats and rhesus monkeys, the AT2 antagonists did not affect renin release in either species. Thus both subtypes of ANG II receptor are present in rhesus monkey cortex, but a function for only the AT1 subtype was demonstrated.
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PMID:Angiotensin II receptor subtypes in renal cortex of rats and rhesus monkeys. 165 32

In the present study, we demonstrate the presence of Ca(2+)-activated K+ channels in rat glomerulosa cells. We find that angiotensin II (Ang II) inhibits this charybdotoxin-sensitive current. The effect of Ang II was dose-dependent with an inhibition constant (Ki) of 0.98 nM and a maximal effect observed at 200 nM. Time course of the blockage was as rapid as the one induced by charybdotoxin. This effect is mediated by the AT1 receptor subtype of Ang II, since it is blocked by DUP 753 but is unaffected by CGP 42112. Activation of protein kinase C by phorbol dibutyrate (1 microM) or dialysis of the cell with inositol 1,4,5-triphosphate (20 microM) were ineffective in blocking the current. However, experiments done with GDP beta S and GTP gamma S indicated that a G protein was involved. The inhibitory effect of Ang II was not pertussis toxin-sensitive, which excludes Gi protein, but was abrogated if an antibody raised against the alpha-subunit of the Gq/11 protein was present in the patch pipette medium. Further analysis showed that the Ca(2+)-activated K+ channel was able to modulate the membrane potential according to the level of intracellular calcium concentration ([Ca2+]i). Whereas a thapsigargin-induced increase in [Ca2+]i hyperpolarized the membrane, this effect was not observed when Ang II was used to increase [Ca2+]i because of the blockage of the Ca(2+)-activated K+ current. The blockage of Ca(2+)-activated K+ current by Ang II would result in a synergistic effect on the Ang II-induced depolarization, thus favoring Ca2+ influx, an event essential to secretion.
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PMID:Modulation of a Ca(2+)-activated K+ channel by angiotensin II in rat adrenal glomerulosa cells: involvement of a G protein. 747 91

A novel series of nonpeptide angiotensin II (A II) antagonists containing a pyrimidinone ring which carries a C-linked biphenyltetrazole moiety and a carboxyheteroaryl group on the 3-position have been prepared. Their affinity for the AT1 receptor was determined in a binding assay on rat adrenal cortical membranes. The in vivo antihypertensive properties were tested by evaluating the inhibition of the pressor response to A II followed by iv and id administration. Extensive molecular modeling studies, including comparison of molecular electrostatic potential distributions, conformational analysis, and overlays on a computational pharmacophore model of A II, were used to evaluate structural parameters of the new compounds, in comparison to other known A II antagonists (e.g., DUP-753 and SK&F 108566). According to the modeling studies, the introduction of a (carboxyheteroaryl)methyl moiety at the 3-position of the pyrimidinone ring led to derivatives with increased potency. Methyl 2-[[4-butyl-2-methyl-6-oxo-5-[[2'-(1H-tetrazol-5-yl)[1,1'-biphenyl ]- 4-yl]methyl]-1-(6H)-pyrimidinyl]methyl]-3-thiophenecarboxylate (3k, LR-B/081), one of the most potent compounds in the series (Ki = 1.4 nM), exhibited a marked antihypertensive activity on oral administration to conscious renal hypertensive rats, with long duration of action. It was selected for clinical evaluation in the treatment of hypertension in man.
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PMID:N-3-substituted pyrimidinones as potent, orally active, AT1 selective angiotensin II receptor antagonists. 749 Jul 30

In this study we describe a new angiotensin antagonist [Asp1-Arg2-Val3-Tyr4-Ile5-His6-D-Ala7, (A-779)] selective for the heptapeptide angiotensin-(1-7) [Ang-(1-7)]. A-779 blocked the antidiuretic effect of Ang-(1-7) in water-loaded rats and the changes in blood pressure produced by Ang-(1-7) microinjection into the dorsal-medial and ventrolateral medulla. In contrast, A-779 did not change the dipsogenic, pressor, or myotropic effects of angiotensin II (Ang II). Also, A-779 did not affect the antidiuretic effect of vasopressin or the contractile effects of angiotensin III, bradykinin, or substance P on the rat ileum. In the rostral ventrolateral medulla, the pressor effect produced by Ang-(1-7) microinjection was completely blocked by A-779 but not by AT1 or AT2 receptor antagonists (DUP 753 and CGP 42112A, respectively). Conversely, the pressor effect produced by Ang II was not changed by A-779 but was completely blocked by DUP 753. Binding studies substantiated these observations: A-779 did not compete significantly for 125I-Ang II binding to adrenocortical membranes at up to a 1 microM concentration. Low affinity binding was also observed in adrenomedullary membranes with an IC50 greater than 10 microM. Our results show that A-779 is a potent and selective antagonist for Ang-(1-7). More importantly, our data indicate that specific angiotensin receptors mediate the central and peripheral actions of Ang-(1-7).
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PMID:Characterization of a new angiotensin antagonist selective for angiotensin-(1-7): evidence that the actions of angiotensin-(1-7) are mediated by specific angiotensin receptors. 785 Apr 77

1. In this article we review the physiological actions of the heptapeptide angiotensin-(1-7) [Ang-(1-7)] at the periphery and on central pathways involved in the control of arterial pressure. Peripherally Ang-(1-7) has been shown to present a potent antidiuretic effect on water-loaded rats. Microinjection of pmol amounts of Ang-(1-7) into the dorsomedial or ventrolateral medulla (VLM) of anesthetized rats produces cardiovascular effects comparable to Ang II. In addition, in vitro experiments have shown that Ang-(1-7) has a potent vasopressin and prostaglandin releasing activity and excites neuronal activity in the hypothalamus and medulla. 2. Evidence for the existence of a new angiotensin receptor subtype that mediates the central cardiovascular actions of this active peptide of the renin-angiotensin system (RAS) is also provided. Neither the AT1 receptor antagonist DUP 753 or the AT2 receptor antagonist CGP 42112A blocked the pressor response produced by microinjection of Ang-(1-7) into the rostral VLM. However, the effect of Ang-(1-7) on VLM was completely abolished by the non-specific angiotensin receptor antagonist, Sar1-Thr8-Ang II. 3. The data presented here reinforce the hypothesis of the existence of complex site-specific interactions between multiple angiotensins and multiple receptors in the mediation of important central and peripheral effects of the RAS.
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PMID:Central and peripheral actions of angiotensin-(1-7). 808 84

High-affinity (104 +/- 18 pmol/l) and high-density (204 +/- 25 fmol/mg) angiotensin II (AII) binding sites have been identified in Xenopus laevis heart membranes. Competition binding of [125I]Sar1,Ile8 angiotensin (SIA) to these receptors by peptide analogs selective for the mammalian AII receptor subtypes AT1 and AT2 suggested that the amphibian AII binding sites were more closely related to the AT1 receptor subtype. Also in common with AT1 receptors, dithiothreitol and GTP gamma S inhibited [125I]SIA binding to Xenopus heart receptors, exhibiting IC50 values of 600 and 0.95 mumol/l, respectively. In addition, Xenopus oocytes injected with Xenopus heart mRNA were capable of mobilizing calcium when exposed to AII, demonstrating that Xenopus AII receptors are functionally linked to a second-messenger system similar to that coupled to mammalian AT1 receptors. However, in contrast to both AT1 and AT2 receptor subtypes, nonpeptide antagonists DUP 753 and SK&F 108566 (AT1 receptor selective) and PD123319 (AT2 selective) did not bind the Xenopus AII receptors, thus establishing that the amphibian receptors were pharmacologically unique. Together, these results demonstrate that Xenopus heart AII receptors are functionally similar to mammalian AT1 receptors but are pharmacologically distinct from both AT1 and AT2 receptors.
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PMID:Characterization of a functional angiotensin II receptor in Xenopus laevis heart. 817 10

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