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)

The effects of angiotensins II (A II) and IV (A IV) and of A II receptor antagonists losartan (Los) and PD 123319 on [3H]-thymidine incorporation into DNA of the rat anterior pituitary cells in vitro have been studied. The anterior pituitary cells were isolated from the pituitaries of male rats implanted chronically by diethylstilboestrol (DES). It has been found that A IV, like A II, stimulated the tritiated thymidine incorporation into pituitary cells. The effect has not been blocked by antagonists of AT1 and AT2 receptors, Los and PD 123319, respectively.
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PMID:Angiotensin IV stimulates the proliferation of rat anterior pituitary cells in vitro. 912 66

We recently reported that intrarenal vascular AT1 angiotensin II (ANG II) receptors are major determinants of the increased vascular resistance and reactivity to ANG II observed in the kidney of spontaneously hypertensive rats (SHR). We decided to test the hypothesis that, by modifying plasma ANG II levels by inhibiting the ANG II-converting enzyme (ACE) with captopril, we would modify intrarenal ANG II receptors, and therefore the renal vascular response to ANG II. Two approaches were taken: (1) radioligand binding assays were performed on membrane preparations of purified renal microvessels and glomeruli, with displacement of 125I-[Sar-Ile8]-ANG II by specific non-peptide antagonists of AT (losartan) and AT2 (PD 123319): (2) dose-response curves to ANG II on the isolated perfused kidney were studied. Two weeks of captopril treatment significantly reduced blood pressure (BP) and relative heart weight, and increased plasma renin activity. The binding assays showed that renal microvessels and glomeruli expressed a single receptor population (AT1) for ANG II. The density of glomerular AT1 was not modulated by captopril treatment (600 +/- 174 v 573 +/- 97 fmol/mg protein in non-treated and treated SHR respectively); however. AT1 density on the intrarenal arteries increased 3-fold (55 +/- 20 v 154 +/- 30 fmol/mg protein in non-treated and treated SHR respectively. P < 0.05). Experiments with isolated perfused kidneys demonstrated that captopril did not improve the compliance of intrarenal vessels to high flow but increased their reactivity to ANG II (ED50 = 18 nM v 0.5 pM, P < 0.01). We conclude that treatment with an ACE inhibitor increases vascular reactivity to ANG II which may be mediated by an upregulation of renal vascular ANG II receptors.
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PMID:Effect of angiotensin-converting enzyme two-week inhibition on renal angiotensin II receptors and renal vascular reactivity in SHR. 914 Aug 37

It has previously been shown in this laboratory that intrathecal administration of 10 microg of angiotensin II produces an increase in arterial pressure and heart rate. As two receptor subtypes of angiotensin II, termed AT1 and AT2, have been identified in central nervous tissue this study examines the effects of selective antagonists on the pressor and cardioacceleratory responses to intrathecal administration of 10 microg of angiotensin II to the ninth thoracic spinal cord. The two non-peptide antagonists were losartan (2-n-butyl-4-chloro-5-hydroxymethyl-1-[(2'-(1H)-tetrazol-5-yl)biph enyl-4-yl)methyl]imidazole), which is selective for the angiotensin AT1 receptor, and PD 123319 (1-[[4-(dimethylamino)-3-methylphenyl]methyl]-5-(diphenyacetyl)-4, 5,6,7-tetrahydro-1H-imidazo[4,5-c]pyridine-6-carboxylic acid, ditrifluoroacetate, dihydrate), which is selective for the angiotensin AT2 receptor. Intravenous administration of losartan blocked both pressor and cardioacceleratory effects of angiotensin II. Intrathecal administration of losartan blocked only the pressor effects, raising the possibility that block of the heart rate response was in the periphery. Intrathecal administration of PD 123319 blocked the pressor effect of angiotensin II but had no effect on the cardioacceleratory response. However, by itself the antagonist produced a transient increase in arterial pressure and a slower increase in heart rate. The data support the involvement of the angiotensin AT1 receptor in mediating the effects of exogenously administered angiotensin II but also indicate a possible role of angiotensin AT2 receptors at the spinal level.
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PMID:Receptor subtypes mediating spinal cardiovascular effects of angiotensin II in rat using losartan and PD 123319. 919 66

The hypothalamic angiotensin II (Ang II) system plays an important role in pituitary hormone release. Little is known about this system in the mouse brain. We studied the distribution of angiotensin-converting-enzyme (ACE), Ang II, Ang II receptor subtypes, and vasopressin in the hypothalamus of adult male mice. Autoradiography of binding of the ACE inhibitor [125I]351A revealed low levels of ACE throughout the hypothalamus. Ang II- and vasopressin-immunoreactive neurons and fibers were detected in the paraventricular, accessory magnocellulary, and supraoptic nuclei, in the retrochiasmatic part of the supraoptic nucleus and in the median eminence. Autoradiography of Ang II receptors was performed using [125I]Sar1-Ang II binding. Ang II receptors were present in the paraventricular, suprachiasmatic, arcuate and dorsomedial nuclei, and in the median eminence. In all areas [125I]Sar1-Ang II binding was displaced by the AT1 receptor antagonist losartan, indicating the presence of AT1 receptors. In the paraventricular nucleus [125I]Sar1-Ang II binding was displaced by Ang II (Ki = 7.6 X 10(-9)) and losartan (Ki = 1.4 X 10(-7)) but also by the AT2 receptor ligand PD 123319 (Ki = 5.0 X 10(-7)). In addition, a low amount of AT2 receptor binding was detected in the paraventricular nucleus using [125I]CGP42112 as radioligand, and the binding was displaced by Ang II (Ki = 2.4 X 10(-9)), CGP42112 (Ki = 7.9 x 10(-10)), and PD123319 (Ki = 2.2 x 10(-7)). ACE, Ang II, and AT1 as well as AT2 receptor subtypes are present in the mouse hypothalamus. Our data are the basis for further studies on the mouse brain Ang II system.
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PMID:Localization of angiotensin-converting enzyme, angiotensin II, angiotensin II receptor subtypes, and vasopressin in the mouse hypothalamus. 920 Jul 50

Chronic angiotensin-converting enzyme (ACE) inhibition with enalapril or angiotensin II (Ang II) receptor antagonism with either losartan (specific for Ang II type-1 receptor, AT1) or PD 123319 (specific for the Ang II type-2 receptor, AT2) were effected between postnatal days 3 and 21 in the rat. Following quantitative analysis of the kidneys using recently developed unbiased stereological techniques we found that none of the treatments resulted in changes in glomerular number or size. This implies that inhibition of Ang II activity had no effect on postnatal nephron induction or glomerular development. However, following both chronic ACE inhibition and AT1 antagonism, abnormalities of tubules and their associated vessels were evident throughout the kidney and were accompanied by an increased proportion of interstitium. The structural abnormalities were most prominent in the outer medulla and were consistent with interruption of descent of the loops of Henle and vasa rectae. In contrast, no renal morphological abnormalities were observed following chronic AT2 antagonism.
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PMID:Glomerular number and size following chronic angiotensin II blockade in the postnatal rat. 920 79

The angiotensin AT2 receptor modulates renal production of cyclic guanosine 3',5'-monophosphate (cGMP; J. Clin. Invest. 1996. 97:1978-1982). In the present study, we hypothesized that angiotensin II (Ang II) acts at the AT2 receptor to stimulate renal production of nitric oxide leading to the previously observed increase in cGMP. Using a microdialysis technique, we monitored changes in renal interstitial fluid (RIF) cGMP in response to intravenous infusion of the AT2 receptor antagonist PD 123319 (PD), the AT1 receptor antagonist Losartan, the nitric oxide synthase (NOS) inhibitor nitro--arginine-methyl-ester (-NAME), the specific neural NOS inhibitor 7-nitroindazole (7-NI), or Ang II individually or combined in conscious rats during low or normal sodium balance. Sodium depletion significantly increased RIF cGMP. During sodium depletion, both PD and -NAME caused a similar decrease in RIF cGMP. Combined administration of PD and -NAME decreased RIF cGMP to levels observed with PD or -NAME alone or during normal sodium intake. During normal sodium intake, Ang II caused a twofold increase in RIF cGMP. Neither PD nor -NAME, individually or combined, changed RIF cGMP. Combined administration of Ang II and either PD or -NAME produced a significant decrease in RIF cGMP compared with that induced by Ang II alone. Combined administration of Ang II, PD, and -NAME blocked the increase in RIF cGMP produced by Ang II alone. During sodium depletion, 7-NI decreased RIF cGMP, but the reduction of cGMP in response to PD alone or PD combined with 7-NI was greater than with 7-NI alone. During normal sodium intake, 7-NI blocked the Ang II-induced increase in RIF cGMP. PD alone or combined with 7-NI produced a greater inhibition of cGMP than did 7-NI alone. During sodium depletion, 7-NI (partially) and -NAME (completely) inhibited RIF cGMP responses to -arginine. These data demonstrate that activation of the renin- angiotensin system during sodium depletion increases renal nitric oxide production through stimulation by Ang II at the angiotensin AT2 receptor. This response is partially mediated by neural NOS, but other NOS isoforms also contribute to nitric oxide production by this pathway.
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PMID:The subtype 2 (AT2) angiotensin receptor mediates renal production of nitric oxide in conscious rats. 921 2

Angiotensin II (Ang II), a potent vasoactive peptide with mitogenic potential, influences vascular smooth muscle cell contraction and growth through receptor-linked pathways that increase intracellular free Ca2+ concentration ([Ca2+]i) and pH (pHi). Activation of these second messengers by Ang II may involve tyrosine kinase-dependent signaling pathways. This study determined the role of tyrosine kinases in Ang II-stimulated pHi, and in simultaneously measured contractile and [Ca2+]i responses, as well as growth in cultured vascular smooth muscle cells from mesenteric arteries of Wistar-Kyoto rats. pHi was determined by fluorescent digital imaging using 2',7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein acetoxymethyl ester (BCECF-AM). Vascular smooth muscle cell [Ca2+]i and contractile responses were assessed simultaneously by fura 2 methodology and by photomicroscopy in cells grown on rat tail collagen gels. Cell growth was determined by DNA and protein synthesis as measured by [3H]thymidine and [3H]leucine incorporation, respectively. The Ang II receptor subtypes (AT1 or AT2) through which Ang II mediates effects were assessed with [Sar1,Ile8]Ang II (a nonselective subtype antagonist), losartan (a selective AT1 antagonist), and PD 123319 (a selective AT2 antagonist). To determine whether tyrosine kinases influence Ang II-stimulated responses, cells were pretreated with 10(-5) mol/L tyrphostin A-23 (a specific tyrosine kinase inhibitor). Ang II increased pHi in a dose-dependent manner (pD2, 9.2+/-0.2) and significantly increased vascular smooth muscle cell contraction (30%) and [Ca2+]i (pD2, 7.4+/-0.1). Ang II (10(-7) mol/L) increased DNA ([3H]thymidine incorporation) and protein synthesis ([3H]leucine incorporation). [Sar1,Ile8]Ang II and losartan but not PD 123319 abolished Ang II-elicited responses. Tyrphostin A-23 significantly attenuated Ang II-stimulated pHi responses; it also inhibited [Ca2+]i and contractile responses and cell growth. The inactive analogue tyrphostin A-1 did not alter Ang II-stimulated actions. These results provide novel evidence for a role of tyrosine kinases in Ang II-mediated pHi responses in vascular smooth muscle cells and indicate that tyrosine kinases participate in the regulation of signal transduction associated with AT1 receptor subtype-mediated contraction and growth.
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PMID:Angiotensin II regulates vascular smooth muscle cell pH, contraction, and growth via tyrosine kinase-dependent signaling pathways. 926 Sep 84

The molecular and cellular mechanisms by which hypertension enhances atherosclerosis are poorly understood. Angiotensin II (Ang II) has been implicated in the regulation of cellular lipoxygenases (LO), which are thought to play a role in atherogenesis by inducing oxidative modification of low density lipoprotein (LDL). We sought to test the hypothesis that Ang II would stimulate murine macrophage LO activity (which has both 12- and 15-LO activity). Competitive binding studies revealed the presence of Ang II AT1 receptors on mouse peritoneal macrophages (MPM) and J-774 cells, but not on the RAW cell line. Valsartan, a specific AT1 receptor antagonist inhibited Ang II binding, whereas PD 123319, an AT2 receptor antagonist did not. Incubation of MPM or J-774 cells with Ang II (10 pM to 1 microM) for 24 h led to a 2.5-3.5-fold increase in LO activity, measured as generated 13-HODE or 12(S)-HETE. This stimulation was inhibited by valsartan, but not by PD 123319. In contrast, Ang II did not stimulate LO activity in RAW macrophages. Semiquantitative reverse transcriptase-polymerase chain reaction showed a 2-3-fold increase in LO mRNA in MPM, but not in RAW cells after treatment with Ang II. Ang II also induced an increase in 12-LO protein. In addition, pretreatment of J-774 cells with Ang II increased in a dose-dependent manner the ability of the cells to modify LDL, resulting in greater chemotactic activity for monocytes, typical of minimally modified LDL. This stimulation was inhibited by AT1 receptor blockade. In summary, these data suggest that Ang II increases macrophage LO activity via AT1 receptor-mediated mechanisms and this further increases the ability of the cells to generate minimally oxidized LDL. These studies provide a link between hypertension and the associated increased atherosclerosis observed in hypertensive patients.
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PMID:Angiotensin II increases macrophage-mediated modification of low density lipoprotein via a lipoxygenase-dependent pathway. 926 Nov 83

The events involved in the processing of the angiotensin II (Ang II)-receptor complex were studied in primary cultures of rat myometrial cells. Ang II bound to rat myometrial cells in a specific, time- and temperature-dependent fashion. Pretreatment with cycloheximide did not interfere with binding up to 3 hr, but inhibited increases in binding observed over longer periods. The [3H]Ang II binding to intact cells was inhibited by dithiothreitol (DTT), and the rank order of potency of Ang II and nonpeptide antagonists to inhibit the [3H]Ang II binding was Ang II > Losartan >> PD 123319 or CGP 42112B, indicating the presence of the AT1 receptor type. Whereas most of the [3H]Ang II binding at 4 degrees was susceptible to acid or pronase treatment, binding at 35 degrees was resistant to both treatments, suggesting an internalization of the Ang II-receptor complex. Phenylarsine oxide (PAO) and N-ethylmaleimide (NEM) caused a concentration-dependent inhibition when the binding assay was performed at 35 degrees, but no effect was observed at 4 degrees, indicating that these agents did not alter cell-surface binding but actually prevented the internalization process. Simultaneous treatment with 1 mM DTT or beta-mercaptoethanol prevented the inhibitory effect of NEM, but only DTT could prevent the inhibition caused by PAO, indicating that two closely located sulfhydryl groups must be involved in the internalization process. Chloroquine (100 microM) inhibited the [3H]Ang II dissociation from cells, and monensin (25 microM) induced a 30% inhibition of [3H]Ang II binding (35 degrees, 3 hr), suggesting endosomal processing of the Ang II-receptor complex with receptor recycling to the cell surface. These results indicate that Ang II binding to AT1 receptors in rat myometrial cells is followed by internalization of the Ang II-receptor complex and recycling of the receptor to the cell surface.
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PMID:Receptor-mediated endocytosis of angiotensin II in rat myometrial cells. 927 99

The hypertrophy of renal proximal tubular cells occurs as an adaptive response to a variety of stimuli and may be involved with the progression of renal disease. Angiotensin II acting alone or in combination with other growth factors has been implicated in this process. The aims of this study were to identify the role of both angiotensin II and the angiotensin receptor subtypes in DNA synthesis and protein synthesis in human renal proximal tubular cells. Primary cultures of human renal proximal tubular cells were incubated with angiotensin II (10(-10) M, 10(-8) M, 10(-6) M) for 24 to 120 hours either alone or in combination with losartan, PD123319 or 8-bromo-cAMP. Incubation of human proximal tubular cells with angiotensin II (10(-10) M, 10(-8) M) induced a significant early increase in [3H]thymidine uptake by 19% and 56% (P < 0.01), respectively, and a later increase in total protein content by 30% (P < 0.01). The effect of angiotensin II upon DNA and protein synthesis was inhibited by 8-bromo-cAMP and losartan but not by PD 123319, indicating that the responses are mediated via the AT1 receptor and dependent upon the inhibition of adenylate cyclase.
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PMID:Selective antagonism of the AT1 receptor inhibits angiotensin II stimulated DNA and protein synthesis in primary cultures of human proximal tubular cells. 929 Nov 90


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