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:C0004135 (ATM)
13,001 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

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 adrenal glomerulosa cell is a major site of action of angiotensin II (AII), which binds to AT1 receptors to stimulate phosphoinositide hydrolysis and Ca2+ mobilization, and the subsequent production of aldosterone. All also influences adrenal growth and proliferation and promotes thymidine incorporation in adrenocortical cells. In primary cultures of bovine glomerulosa cells, AII was found to induce the expression of several early growth response genes (c-fos, c-jun, JunB, and Krox 24). This effect of AII was dose-dependent and was blocked by [Sar1,IIe8] AII and the nonpeptide antagonist DuP 753, indicating that it is mediated by the AT1 subtype of the AII receptor. ACTH, which elevates cAMP in glomerulosa cells, was a relatively weak inducer of c-fos expression but was as potent as AII in stimulating the expression of JunB. ACTH did not further enhance the maximal effect of AII on c-fos expression. The role of the AII-induced cytoplasmic Ca2+ increase in generating the c-fos response was suggested by the ability of the Ca2+ ionophore ionomycin to induce c-fos expression. However, mobilization of intracellular Ca2+ by the Ca2+ ATPase inhibitor thapsigargin, as well as the stimulation of Ca2+ influx by depolarization with potassium, were less potent stimuli of c-fos expression. Omission of Ca2+ from the extracellular medium, which abolishes the plateau phase of the AII-induced Ca2+ signal without affecting the early increase due to Ca2+ mobilization, enhanced the early phase of the AII-induced c-fos response, indicating that Ca2+ also has an inhibitory effect on the early gene response. Activation of protein kinase C by phorbol 12-myristate, 13-acetate (PMA) also stimulated c-fos expression, but the combination of PMA and ionomycin did not further increase the c-fos response. Inhibition of protein kinase C by staurosporine, or its depletion by prolonged exposure to PMA, prevented the c-fos response to PMA but only partially inhibited the response to AII, suggesting the involvement of other factors in stimulus-transcription coupling from the AT1 receptor.
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PMID:Stimulation of early gene expression by angiotensin II in bovine adrenal glomerulosa cells: roles of calcium and protein kinase C. 133 25

The role of AII receptors subtypes, AT1 and AT2, in the regulation of aldosterone secretion was studied in adrenal glomerulosa cells and membranes from rats on normal and low sodium intake, using AII receptor subtype-specific antagonists. In adrenal glomerulosa cells, more than 90% of the receptors were AT1 and there was a good correlation between the potencies of the antagonists to inhibit ligand binding, and AII-stimulated aldosterone production and inositol phosphate formation. The inhibition of basal and ACTH-stimulated cAMP by AII was also abolished by the AT1, but not the AT2, antagonist. Sodium restriction for 6 days increased both receptor subtypes in the same proportion, but only the AT1 antagonist inhibited AII-stimulated aldosterone production. The data demonstrate that AT1 receptor mediates the regulatory actions of AII in the adrenal zona glomerulosa.
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PMID:Role of angiotensin II receptor subtypes on the regulation of aldosterone secretion in the adrenal glomerulosa zone in the rat. 133 30

To examine whether the subpopulation of the rat type 1 angiotensin II (AII) receptor (AT1A) couples with a single or multiple signal transduction pathways, we constructed Chinese hamster ovary (CHO) cell lines producing the recombinant receptor. The expressed AT1A receptor exhibits typical pharmacological characteristics of the AT1 receptor, known to mediate the main physiological function of AII. Addition of AII to the CHO cells induced a rapid, transient increase in intracellular free Ca2+ concentrations ([Ca2+]i) followed by a lower, sustained phase. Nicardipine, a blocker of voltage-dependent L-type Ca2+ channels, attenuated the transient [Ca2+]i response and abolished the sustained phase. The transient phase was also reduced dose-dependently by the phospholipase C inhibitor neomycin. Furthermore, AII inhibited forskolin-evoked cAMP accumulation. These data suggest, although another subpopulation named AT1B is present, that the rat AT1A receptor can independently couple with all three signal transduction pathways known to be induced by AII: i.e., i) activation of phospholipase C resulting in InsP3 generation with a subsequent release of intracellularly stored Ca2+, ii) activation of dihydropyridine-sensitive voltage-dependent Ca2+ channels, and iii) inhibition of adenylate cyclase activity.
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PMID:The rat angiotensin II AT1A receptor couples with three different signal transduction pathways. 137 99

T cell precursors from murine fetal liver enter the fetal thymus where they proliferate, differentiate, and mature. These processes are accompanied by changes in the pattern of transcription factors known to control the expression of specific genes. We have monitored the expression of five different transcription factors during mouse fetal thymus ontogeny: nuclear factor (NF)-kappa B, cAMP-response-element binding protein (CREB), NF-IL-2A, msNF-AT1, and hNF-AT1. NF-kappa B binding activity was not detected in extracts from fetal liver but was present in the thymus at day 14 of embryogenesis. Thereafter, NF-kappa B expression was biphasic, being maximal at 14-16 days gestation and in newborn mice, and decreased during the intermediate gestational stages and in the adult. An inverse correlation was observed between NF-kappa B binding activity in the nuclei and levels of its inactive precursor in the cytoplasm of all samples analyzed. In contrast, CREB activity was uniform throughout thymus development. Similarly, NF-IL-2A activity was detected in fetal liver and thymic extracts from different gestational stages, in approximately equivalent amounts. However, band shift experiments revealed three distinct NF-IL-2A-DNA complexes, whose relative abundance is altered during thymic ontogeny. Likewise, NF-AT1 transcription factor appears to be heterogeneous and includes representatives which are differentially (msNF-AT1) or stably (hNF-AT1) expressed during thymic development. These results are discussed in the context of present knowledge about T cell development within the thymus.
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PMID:Transcription factors in mouse fetal thymus development. 149 84

The mRNA level of the type-1 angiotensin II receptor (AT1) was down-regulated by angiotensin II in cultured rat glomerular mesangial cells. The effect was maximum with 1 microM AII at 6 h, sensitive to cycloheximide, and specific to AT1 since this phenomenon was blocked by DuP753, an AT1 antagonist, but not by type-2 antagonist PD123319. Dibutyryl cAMP, forskolin, and cholera toxin also caused AT1 down-regulation. These effects were not altered by either the protein kinase A inhibitor H-8 or cycloheximide. Calcium ionophore A23187, pertussis toxin, protein kinase C inhibitor staurosporine, or prolonged incubation with phorbol ester were without effect. These results suggest that there are at least two pathways to down-regulate AT1 mRNA; one way is an angiotensin II-induced, protein kinase C-independent, and cycloheximide-sensitive pathway and the other is an angiotensin II-independent, cAMP-induced, and cycloheximide-insensitive pathway.
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PMID:Two distinct pathways in the down-regulation of type-1 angiotension II receptor gene in rat glomerular mesangial cells. 159 49

Angiotensin II (AII) receptor subtypes and their potential coupling mechanisms were studied using recently developed peptide and nonpeptide antagonists in rat and bovine adrenal zona glomerulosa cells, as well as in membranes prepared from rat and bovine adrenal cortex and medulla. Comparison of the potencies of these novel antagonists to displace 125I-[Sar1,Ile8]AII from its binding sites revealed two distinct AII binding sites in membranes prepared from rat adrenal capsules (zona glomerulosa) and from rat adrenal inner zones containing the medulla. About 85% of the binding sites of the glomerulosa zone and 30% of those of the inner zones were of the AT1 subtype, with relative affinities for the nonpeptide antagonists Dup 753 and PD 123177 and the peptide antagonist CGP 42112A in the order of Dup 753 much greater than CGP 42112A greater than PD 123177. In contrast, the relative binding potencies for the other (AT2) population of binding sites were CGP 42112A greater than PD 123177 much greater than Dup 753. Neither AII nor its peptide antagonist [Sar1,Ile8]AII could distinguish between the two sets of binding sites. The effects of the new antagonists on functional responses of rat adrenal glomerulosa cells demonstrated that both AII-stimulated aldosterone production and the AII-induced inhibition of adrenocorticotropic hormone-stimulated cAMP formation were mediated by the AT1 receptor subtype. In bovine adrenals, only AT1 receptors were detected in membranes prepared from the cortex and the medulla, as well as in cultured glomerulosa cells. The relative inhibitory potency of Dup 753 was lower by an order of magnitude at bovine than at rat AT1 receptors. The inhibition of AII-induced aldosterone production by the various antagonists was closely correlated with their inhibitory potencies on 125I-[Sar1,Ile8]AII binding to bovine glomerulosa cells. These data suggest that the known effects of AII in adrenal glomerulosa cells are mediated through the AT1 receptor subtype and that the distribution and/or specificity of the AT2 receptors shows marked species variations.
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PMID:Angiotensin II receptor subtypes and biological responses in the adrenal cortex and medulla. 165 13

Binding sites for angiotensin II were found, in a line of Swiss 3T3 cells (designated as R3T3 cells), that were insensitive to Dup 753 and dithiothreitol yet were sensitive to PD 123319, making them members of the AT2 class of angiotensin II binding sites. These binding sites appeared not to be coupled to guanine nucleotide-binding proteins, and affinity labeling experiments revealed a specifically labeled protein with an apparent molecular weight of about 100,000. Treatment of cells with angiotensin II revealed no perturbation of common signaling pathways, including stimulation of phosphatidylinositol turnover, effects on levels of cAMP, tyrosine kinase activity, and release of arachidonic acid. Also, angiotensin II or PD 123319 had no effect on cell growth, mitogenesis, or hypertrophy or on mitogenesis or hypertrophy stimulated by several growth factors. These results show that the AT2 binding site is quite distinct from the AT1 site in terms of molecular weight, binding properties, and coupling to second messenger systems. Although the significance of this novel angiotensin II binding site remains obscure, the identification of cell lines selectively expressing it should greatly aid in the understanding of its regulation and function.
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PMID:Characterization of angiotensin II (AT2) binding sites in R3T3 cells. 189 25


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