UMLS:C0004135 - FACTA Search

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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

Two X-ray-sensitive mutants of CHO-K1 cells, xrs 5 and xrs 6, were characterised with regard to their responses to genotoxic chemicals, namely bleomycin, MMS, EMS, MMC and DEB for induction of cell killing, chromosomal aberrations and SCEs at different stages of the cell cycle. In addition, induction of mutations at the HPRT and Na+/K+ ATPase (Oua) loci was evaluated after treatment with X-rays and MMS. Xrs 5 and xrs 6 cells were more sensitive than wild-type CHO-K1 to the cell killing effect of bleomycin (3 and 13 times respectively) and for induction of chromosomal aberrations (3 and 4.5 times). In these mutants a higher sensitivity for induction of chromosomal aberrations to MMS, EMS, MMC and DEB was observed (1.5-3.5 times). The mutants also showed increased sensitivity for cell killing effects of mono- and bi-functional alkylating agents (1.7-2.5 times). The high cell killing effect of X-rays in these mutants was accompanied by a slight increase in the frequency of HPRT mutation. The xrs mutants were also more sensitive to MMS for the increased frequency of TGr and Ouar mutants when compared to wild-type CHO-K1 cells. Though bleomycin is known to be a poor inducer of SCEs, an increase in the frequency of SCEs in xrs 6 cells (doubling at 1.2 micrograms/ml) was found in comparison to no significant increase in xrs 5 or CHO-K1 cells. The induced frequency of SCEs in all cell types increased in a similar way after the treatment with mono- or bi-functional alkylating agents. MMS treatment of G2-phase cells yielded a higher frequency of chromatid breaks in the mutants in a dose-dependent manner compared to no effect in wild-type CHO-K1 cells. Treatment of synchronised mutant cells at G1 stage with bleomycin resulted in both chromosome- and chromatid-type aberrations (similar to the response to X-ray treatment) in contrast to the induction of only chromosome-type aberrations in wild-type CHO-K1 cells. The frequency of chromosomal aberrations chromosome and chromatid types) also increased with MMC treatment in G1 cells of xrs mutants. DEB treatment of G1 cells induced mainly chromatid-type aberrations in all cell types. The possible reasons for the increased sensitivity of xrs mutants to the chemical mutagens studied are discussed and the results are compared to cells derived from radiosensitive ataxia telangiectasia patients.
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PMID:Cytogenetical characterization of Chinese hamster ovary X-ray-sensitive mutant cells xrs 5 and xrs 6. III. Induction of cell killing, chromosomal aberrations and sister-chromatid exchanges by bleomycin, mono- and bi-functional alkylating agents. 247 28

Lymphocyte surface proteins of patients with ataxia-telangiectasia were separated by polyacrylamide gel electrophoresis and compared by autoradiography. The patients lacked one of the two main bands (Band I at the origin). The second main band (Band II) was absent in some cases. All patients had one or two additional bands of smaller molecular weight than Band II except one case who had no band detectable. In the patients, alkaline phosphatase, total ATPase and Mg2+. ATPase were increased but 5'-nucleotidase was normal. The results suggest abnormality in the plasma membranes of the patients' lymphocytes.
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PMID:Studies on lymphocyte cell surface in ataxia-telangiectasia. 299 21

Angiotensin II (ANG II) plays an important role in the regulation of solute transport in the kidney, and its effect on proximal tubule sodium and fluid transport has been studied extensively. Although there is evidence that ANG II receptors are present also in the distal nephron and collecting duct, little is known about the physiological role of ANG II in these segments of the renal tubule. Preliminary studies in our laboratory suggest that ANG II may have both structural and functional effects on intercalated cells in the cortical collecting duct (CCD). Therefore, the present study examines the effect of ANG II on H(+)-adenosinetriphosphatase (H(+)-ATPase) and H(+)-K(+)-ATPase activity in individual CCD segments microdissected from collagenase-treated rat kidneys. The H(+)-ATPase was measured as bafilomycin-sensitive ATPase activity, and H(+)-K(+)-ATPase was measured as Sch-28080-sensitive ATPase activity, by a fluorometric microassay. Preincubation of CCD segments with ANG II, 10(-10)-10(-5) M, caused a dose-dependent decrease in H(+)-ATPase activity with maximum inhibition at 10(-8) M of ANG II. The inhibitory effect of ANG II was abolished when tubules were incubated with ANG II in the presence of 10(-6) M losartan, indicating that the inhibition was mediated via specific AT1 receptors. The AT2-receptor antagonist, PD-123319, had no effect on the ANG II-mediated inhibition of H(+)-ATPase activity. Preincubation of CCD segments with 10(-10) or 10(-7) M ANG II had no effect on H(+)-K(+)-ATPase activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Angiotensin II regulates H(+)-ATPase activity in rat cortical collecting duct. 781 Jun 90

In vivo studies were conducted in Na-replete anesthetized male Wistar rats with denervated kidneys. Intrarenal injections of angiotensin-(1-7) [ANG-(1-7) at > 1 nmol/kg produced a shallow dose-dependent decrease in renal blood flow that was mediated by the AT1-type ANG II receptor. A constant intrarenal infusion of ANG-(1-7) at 0.1 and 1 nmol.min-1.kg-1 had minimal effects on renal blood flow and blood pressure and resulted in an elevated urinary excretion of Na and water compared with the time-control saline-infused group. To determine whether ANG-(1-7) may have a direct action on tubular epithelium to inhibit Na reabsorption, we examined the effect of ANG-(1-7) on transport-dependent O2 consumption (Qo2) in fresh suspensions of rat proximal tubules in vitro. ANG-(1-7) inhibited Qo2 in a concentration-dependent fashion with a threshold concentration of approximately 100 pM. Stimulating Na-K-adenosinetriphosphatase (Na-K-ATPase) activity with nystatin caused a leftward shift of the inhibitory concentration-response curve to ANG-(1-7). The 22% inhibition of Qo2 by 1 pM ANG-(1-7) was abolished by pretreatment with 5 mM ouabain (Na-K-ATPase inhibitor), unaltered by pretreatment with 1 microM PD-123319 (AT2 receptor antagonist), partially attenuated by 1 microM losartan (AT1 receptor antagonist), and abolished by 1 microM [Sar1, Thr8]ANG II (nonselective ANG receptor antagonist). Together these findings indicate that ANG-(1-7) has biological activity in the kidney and, at nonvasoconstrictor doses, results in increased Na and water excretion in vivo. One site of action is the proximal tubule, where ANG-(1-7) can inhibit an ouabain-sensitive Na-K-ATPase exit step in cellular Na transport. This novel inhibitory action of ANG-(1-7) appears to be mediated by an AT1 receptor (minor component) and a non-AT1, non-AT2 ANG receptor (major component).
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PMID:Renal actions of angiotensin-(1-7): in vivo and in vitro studies. 876 32

1. The effects of angiotensin II (AngII) on water and electrolyte transport are biphasic and dose-dependent, such that low concentrations (10(-12) to 10(-9) mol/L) stimulate reabsorption and high concentrations (10(-7) to 10(-6) mol/L) inhibit reabsorption. Similar dose-response relationships have been obtained for luminal and peritubular addition of AngII. 2. The cellular responses to AngII are mediated via AT1 receptors coupled via G-regulatory proteins to several possible signal transduction pathways. These include the inhibition of adenylyl cyclase, activation of phospholipases A2, C or D and Ca2+ release in response to inositol-1,4,5,-triphosphate or following Ca2+ channel opening induced by the arachidonic acid metabolite 5,6,-epoxy-eicosatrienoic acid. In the brush border membrane, transduction of the AngII signal involves phospholipase A2, but does not require second messengers. 3. Angiotensin II affects transepithelial sodium transport by modulation of Na+/H+ exchange at the luminal membrane and Na+/HCO3 cotransport, Na+/K(+)-ATPase activity and K+ conductance at the basolateral membrane. 4. Atrial natriuretic factor (ANF) does not appear to affect proximal tubular sodium transport directly, but acts via specific receptors on the basolateral and brush border membranes to raise intracellular cGMP levels and inhibit AngII-stimulated transport. 5. It is concluded that there is a receptor-mediated action of ANF on proximal tubule reabsorption acting via elevation of cGMP to inhibit AngII-stimulated sodium transport. This effect is exerted by peptides delivered at both luminal and peritubular sides of the epithelium and provides a basis for the modulation by ANF of proximal glomerulotubular balance. The evidence reviewed supports the concept that in the proximal tubule, AngII and ANF act antagonistically in their roles as regulators of extracellular fluid volume.
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PMID:Regulation of renal tubular sodium transport by angiotensin II and atrial natriuretic factor. 899 49

1. Recent evidence indicates that cardiac hypertrophy induced by pressure overload is associated with a decrease in sarcoplasmic reticulum (SR) Ca2+ -ATPase of myocytes, which may contribute to a diastolic dysfunction of the heart by causing intracellular Ca2+ overload. To elucidate whether or not this is also the case in genetic hypertension, we examined cardiac mRNA levels of SR Ca2+ ATPase in 11 week old spontaneously hypertensive rats (SHR) by northern blot analysis. 2. Furthermore, to test the effects of short-term inhibition of the renin-angiotensin system on its expression, we treated 10 week old SHR with angiotensin-converting enzyme inhibitors (alacepril and imidapril) or an AT1 receptor antagonist (SC-52458) for 7 days. 3. Though the left ventricular weight of SHR was significantly higher than that of Wistar-Kyoto (WKY) rats (277 +/- 6 vs 237 +/- 4 mg/100 g bodyweight, respectively, P < 0.05), the level of SR Ca2+ -ATPase mRNA showed no difference between SHR and WKY at this age. 4. Moreover, the aforementioned three drugs did not at all affect the SR Ca2+ -ATPase expression of SHR. 5. Thus, the expression of SR Ca2+ -ATPase was not down-regulated in the heart of 11 week old SHR, and seemed not to be mediated by angiotensin AT1 receptor at this age. Since some evidence on pressure-overloaded cardiac hypertrophy indicate that the decrease in SR Ca2+ -ATPase expression occur in prominent hypertrophy and in the failured heart, further studies on cardiac SR Ca2+ -ATPase expression in more aged SHR will be required.
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PMID:Expression of sarcoplasmic reticulum Ca2+ -ATPase mRNA in the hypertrophied heart of young spontaneously hypertensive rats. 907 67

The present study was undertaken to examine the effects of volume overload on cardiac gene expression and the possible role of angiotensin AT1 receptor in such expression. Cardiac volume overload was prepared by abdominal aortocaval shunt in rats. Rats with aortocaval shunt were treated with 1) vehicle, 2) an angiotensin AT1 receptor antagonist, CS-866 (10 mg/kg/d), or 3) an angiotensin-converting enzyme inhibitor, temocapril (10 mg/kg/d), for 7 days. Cardiac tissue mRNA was measured by Northern blot analysis with specific probes. Aortocaval shunt not only caused cardiac hypertrophy but also upregulated the gene expression of atrial natriuretic polypeptide, collagen III, and downregulated Ca(2+)-ATPase expression in the left ventricle. These changes were prevented by treatment with CS-866, while temocapril failed to normalize left ventricular Ca(2+)-ATPase expression. Unlike the left ventricle, the significant downregulation of alpha-myosin heavy chain and transforming growth factor-beta 3 by aortocaval shunt was observed in the right ventricle, and CS-866 normalized this decreased expression of transforming growth factor-beta 3. The left and right atria showed increased expression of collagen type I as well as of collagen type III and atrial natriuretic polypeptide, and these increases were more effectively prevented by CS-866 than by temocapril. Thus, the effects of cardiac volume overload on cardiac performance-related gene expression differ between the ventricles and atria. Our results suggest that AT1 receptor partially contributed to volume overload-induced changes in cardiac gene expression and that AT1 receptor antagonists and angiotensin-converting enzyme inhibitors have different effects in this model of cardiac hypertrophy.
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PMID:Effects of angiotensin AT1 receptor antagonist on volume overload-induced cardiac gene expression in rats. 922 Feb 78

Distal tubules (DT) from sham or five-sixths nephrectomized (Nx) rats were perfused in vivo to evaluate the hypothesis that, after Nx, endogenous angiotensin II (ANG II) modulates DT in vivo bicarbonate reabsorption (JtCO2) via H(+)-adenosinetriphosphatase (H(+)-ATPase) and Na+/H+ exchange. In Nx rats JtCO2 was increased (65 +/- 7 vs. -24 +/- 21 pmol.min-1.mm-1, P < 0.01). Both luminal and intravenous AT1-receptor blockade by losartan reduced Nx DT JtCO2 (41 +/- 6 and 34 +/- 4 pmol.min-1.min-1, respectively, P < 0.05), whereas neither 10(-9) M nor 10(-11) M ANG II luminal perfusion increased JtCO2, suggesting preexisting high endogenous ANG II levels. The Na+/H+ antiporter inhibitors 5-(N-ethyl-N-isopropyl)-amiloride and 5-(N,N-dimethyl)-amiloride were without effect. Luminal perfusion of 5 nM concanamycin A, a V-type H(+)-ATPase inhibitor, reduced Nx DT JtCO2 (45 +/- 8 pmol.min-1.mm-1, P < 0.05). In Nx A-type intercalated cells, we demonstrated cellular hypertrophy, elaboration of apical microplicae, and enhanced expression/apical polarization of H(+)-ATPase. Thus ANG II is an important determinant in sustaining brisk DT JtCO2 following Nx and is associated with enhanced expression and A-type intercalated cell apical polarization of H(+)-ATPase.
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PMID:ANG II-dependent HCO3- reabsorption in surviving rat distal tubules: expression/activation of H(+)-ATPase. 922 42

In order to examine the effects and the interaction of angiotensin II (ANG II, 1 pM) and atrial natriuretic peptide (ANP, 1 microM) on the kinetics of bicarbonate reabsorption in the rat middle proximal tubule, we performed in vivo experiments using a stopped-flow microperfusion technique with the determination of lumen pH by Sb microelectrodes. These studies confirmed that ANG II added to the luminal or peritubular capillary perfusion fluid stimulates proximal bicarbonate reabsorption and showed that ANP alone does not affect this process, but impairs the stimulation caused by ANG II. We also studied the effects and the interaction of these hormones in cortical distal nephron acidification. Bicarbonate reabsorption was evaluated by the acidification kinetic technique in early (ED) and late (LD) distal tubules in rats during in vivo stopped-flow microperfusion experiments. The intratubular pH was measured with a double-barreled microelectrode with H(+)-sensitive resin. The results indicate that ANG II acted by stimulating Na+/H+ exchange in ED (81%) and LD (54%) segments via activation of AT1 receptors, as well as vacuolar H(+)-ATPase in LD segments (33%). ANP did not affect bicarbonate reabsorption in either segment and, as opposed to what was seen in the proximal tubule, did not impair the stimulation caused by ANG II. To investigate the mechanism of action of these hormones in more detail, we studied cell pH dependence on ANG II and ANP in MDCK cells using the fluorescent probe BCECF. We showed that the velocity of cell pH recovery was almost abolished in the absence of Na+, indicating that it is dependent on Na+/H+ exchange. ANP (1 microM) alone had no effect on this recovery but reversed both the acceleration of H+ extrusion at low ANG II levels (1 pM and 1 nM), and inhibition of H+ extrusion at higher ANG II levels (100 nM). To obtain more information on the mechanism of interaction of these hormones, we also studied their effects on the regulation of intracellular free calcium concentration, [Ca2+]i, monitored with the fluorescent probe Fura-2 in MDCK cells in suspension. The data indicate that the addition of increasing concentrations of ANG II (1 pM to 1 microM) to the cell suspension led to a progressive increase in [Ca2+]i to 2-3 times the basal level. In contrast, the addition of ANP (1 microM) to the cell suspension led to a very rapid 60% decrease in [Ca2+]i and reduced the increase elicited by ANG II, thus modulating the effect of ANG II on [Ca2+]i. These results may indicate a role of [Ca2+]i in the regulation of the H+ extrusion process mediated by Na+/H+ exchange and stimulated/impaired by ANG II. The data are compatible with stimulation of Na+/H+ exchange by increases of [Ca2+]i in the lower range, and inhibition at high [Ca2+]i levels.
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PMID:Interactions of ANP and ANG II in tubular nephron acidification. 925 67

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