Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020538 (hypertension)
 170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have previously shown that pretreatment of A-10 smooth muscle cells (SMC) with angiotensin II (Ang II) attenuated atrial natriuretic peptide (ANP) receptor-C (ANP-C)-mediated inhibition of adenylyl cyclase without altering (125)I-ANP binding. In the present studies, we have investigated the modulation of ANP-C receptor signaling by endothelin-1 (ET-1). Pretreatment of A-10 SMC with ET-1 for 24 h attenuated the expression of ANP-C receptor by about 60% as determined by immunoblotting which was reflected in attenuation of ANP-C-receptor-mediated inhibition of adenylyl cyclase. C-ANP(4-23) [des(Gln(18),Ser(19),Gln(20),Leu(21),Gly(22))ANP(4-23)-NH(2)], a ring-deleted peptide of ANP that interacts specifically with ANP-C receptor, inhibited adenylyl cyclase activity in a concentration-dependent manner with an apparent K(i) of about 1 nM in control cells. The maximal inhibition observed was about 30% which was almost completely attenuated in ET-1-treated cells. In addition, Ang II- and oxotremorine-mediated inhibitions of adenylyl cyclase were also attenuated by ET-1 treatment; however, the expression of Gialpha-2 and Gialpha-3 proteins and not of Gsalpha and Gbeta proteins was augmented by such treatment. The increased expression of Gialpha-2 and Gialpha-3 proteins by ET-1 treatment was inhibited by actinomycin D treatment (RNA synthesis inhibitor). On the other hand, the Gsalpha-mediated effects of some agonists on adenylyl cyclase activity were significantly decreased by ET-1 treatment. These results suggest that ET-1-induced downregulation of ANP-C receptor and not the overexpression of Gi proteins may be responsible for the attenuation of C-ANP(4-23)-mediated inhibition of adenylyl cyclase activity. From these studies it may be suggested that the downregulation of ANP-C receptors by increased levels of endothelin in vivo may be one of the possible mechanisms for the pathophysiology of hypertension.
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PMID:Modulation of ANP-C receptor signaling by endothelin-1 in A-10 smooth muscle cells. 1205 68

The present study describes characteristic features of two clonal subpopulations of opossum kidney (OK) cells (OK(LC) and OK(HC)) that are functionally different but morphologically identical. The most impressive differences between OK(HC) and OK(LC) cells are the overexpression of Na+-K+-ATPase and type 3 Na+/H+ exchanger by the former, accompanied by an increased Na+-K+-ATPase activity (57.6 +/- 5.6 vs. 30.0 +/- 0.1 nmol P(i). mg protein(-1). min(-1)); the increased ability to translocate Na+ from the apical to the basolateral surface; and the increased Na+-dependent pH(i) recovery (0.254 +/- 0.016 vs. 0.094 +/- 0.011 pH units/s). Vmax values (in pH units/s) for Na+-dependent pHi recovery in OK(HC) cells (0.00521 +/- 0.0004) were twice (P < 0.05) those in OK(LC) (0.00202 +/- 0.0001), with similar Km values (in mM) for Na+ (OK(LC), 21.0 +/- 5.5; OK(HC), 14.0 +/- 5.6). In addition, we measured the activities of transporters (organic ions, alpha-methyl-D-glucoside, L-type amino acids, and Na+ and enzymes (adenylyl cyclase, aromatic L-amino acid decarboxylase, and catechol-O-methyltransferase). The cells were also characterized morphologically by optical and scanning electron microscopy and karyotyped. It is suggested that OK(LC) and OK(HC) cells constitute an interesting cell model for the study of renal epithelial physiology and pathophysiology, namely, hypertension.
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PMID:Expression and function of sodium transporters in two opossum kidney cell clonal sublines. 1206 May 89

The spontaneously hypertensive rat (SHR) exhibits not only hypertension but also behavioral hyperactivity which are not genetically linked. Two strains of rats, one hypertensive but normoactive (WKHT) and another, hyperactive but normotensive (WKHA), have been generated from SHR. We have reported that in renal proximal tubules, the linkage between D1-like receptors an adenylyl cyclase was impaired in SHR and WKHT but intact in WKHA. The impaired renal D1-like receptor function in the SHR was associated with increased phosphorylation of the D1 receptor, presumably caused by increased phosphorylation by G protein-coupled receptor kinases (GRK) or decreased dephosphorylation by protein phosphatase 2A. Because calmodulin kinase (CaMK) can regulate GRK activity, CaMK activity in renal cortical membranes of WKHA and WKHT were studied. We found that CaMK-dependent phosphorylation was two-fold higher in WKHA than in WKHT. In addition, serine phosphorylation of a 36 KDa and a 24 KDa protein was 5-fold and 3-fold greater in WKHA than in WKHT. We hypothesize that the increased CaMK activity in the renal cortical membrane may serve to inhibit GRK activity in WKHA and prevent the development of hypertension.
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PMID:Elevated renal cortical calmodulin-dependent protein kinase activity and blood pressure. 1206 59

The aim of this study was to investigate the involvement of beta 3-adrenoceptors (beta 3-AR) in hypertension. Aortic rings were isolated from 12 weeks old WKY (Wistar-Kyoto) and SHR (spontaneously hypertensive rat) rats. Rings were placed in organ baths and constricted with phenylephrine. Then, cumulative concentration-relaxation curves to the beta 3-AR agonists were constructed. In both strains, SR58611, a preferential beta 3-agonist, produced similar concentration-dependent relaxation. CGP 12177 (CGP), (a partial beta 3-AR and atypical beta-AR agonist with beta 1-/beta 2-AR antagonistic properties) produced similar relaxation in WKY (pD2 = 5.10 +/- 0.06; Emax = 54 +/- 2%; n = 6) and in SHR (pD2 = 4.98 +/- 0.02; Emax = 58 +/- 4%; n = 6). In WKY, relaxant response to CGP was not modified by nadolol (10 microM) or L-748.337 (3 microM) suggesting an atypical beta-AR activation. By contrast, in SHR, the effect of CGP was strongly decreased by 3 microM L-748.337 (Emax = 27.8 +/- 5.4%; n = 7; p < 0.05 vs CGP alone), suggesting a possible participation of beta 3-AR in CGP-induced relaxation. In order to investigate the role of endothelium in CGP-induced relaxation, experiments were performed in denuded aortic rings. In WKY, CGP-induced relaxation was not modified by endothelium removal, by contrast, this was greatly inhibited in SHR (Emax = 18.3 +/- 1.9%; n = 9; p < 0.05 vs CGP in intact aortic rings). Endothelium-independent relaxation to CGP was resistant to nadolol or L-748.337 treatment which seems to rule out the involvement of beta 1, beta 2 and beta 3-AR. Endothelium-independent relaxation to CGP was significantly reduced by SQ 22536 or MDL 12330A, non-selective adenylyl cyclase inhibitors, indicating a role of cAMP-dependent pathway in CGP response. By contrast, the relaxant effect to CGP was not modified by SQ 22536 in SHR. In conclusion, these results show that [1] functional response to beta 3-AR stimulation was not altered in hypertension [2]. CGP activated an atypical beta-AR distinct from beta 1, beta 2 and beta 3-AR, partly through cAMP-dependent pathway. Impaired atypical beta-AR relaxation to CGP in SHR could contribute to the pathogenesis of the hypertension.
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PMID:[Alteration in relaxation of atypical beta-adrenergic but not beta-3 receptors in arterial hypertension in the rat]. 1236 73

Numerous attempts have been made to develop strategies for regulating the intracellular cyclic AMP signal pharmacologically, with an intention to establish either new medical therapeutic methods or experimental tools. In the past decades, many pharmacological reagents have been identified that regulate this pathway at the level of the receptor. G protein, adenylyl cyclase, cyclic AMP, protein kinase A and phosphodiesterase. Since the cloning of adenylyl cyclase isoforms during the 1990s, investigators including ourselves have tried to find reagents that regulate the activity of this enzyme directly in an isoform-dependent manner. The ultimate goal of developing such reagents would be to regulate the cyclic AMP signal in an organ-dependent manner. Ourselves and other workers have reported that such reagents may vary from a simple cation to kinases. In a more recent study, using the results from crystallographic studies and computer-assisted drug design programs, we have identified subtype-selective regulators of adenylyl cyclase. Such regulators are mostly based upon forskolin, a diterpene compound obtained from Coleus forskolii, that acts directly on adenylyl cyclase to increase the intracellular levels of cyclic AMP. Similarly, novel reagents have been identified that inhibit a specific adenylyl cyclase isoform (e.g. type 5 adenylyl cyclase). Such reagents would potentially provide a new therapeutic strategy to treat hypertension, for example, as well as methods to selectively stimulate or inhibit this adenylyl cyclase isoform, which may be reminiscent of overexpression or knocking out of the cardiac adenylyl cyclase isoform by the use of a pharmacological method.
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PMID:Isoform-targeted regulation of cardiac adenylyl cyclase. 1268 88

The stroke-prone spontaneously hypertensive rat (SHRSP) is a model of heritable hypertension-associated cerebrovascular injury. This study sought to compare SHRSP to the stroke-resistant SHR strain to identify genes and protein pathways whose expression and/or function was significantly altered between the strains prior to the onset of stroke. Cerebral cortex gene expression profiles from male SHRSPs and matched SHRs were examined by Affymetrix microarray analysis. mRNAs encoding the brain-derived neurotrophic factor receptor (TrkB) and multiple kinases of the MAPK/AKT signaling pathways, including JNK2, AKT2, and PI3K, were differentially expressed between SHRSP and SHR. Because these data suggest altered function in pathways involving MAP and AKT kinase activity, we performed Western blot using phosphorylation state-specific antibodies to characterize activity of MAP kinase and PI3K/AKT pathways. Changes in the levels of the phosphorylated forms of these kinases paralleled the changes in transcript levels observed between the strains. Two-dimensional gel electrophoresis and peptide fragment mass fingerprinting were used to identify altered protein substrates of these kinases. Protein profiling of kinase substrates further supported the notion of perturbed kinase-mediated signaling in SHRSP and identified adenylyl cyclase associated protein 2, TOAD-64, propionyl CoA carboxylase, APG-1, and valosin-containing protein as kinase targets whose phosphorylation state is altered between these strains. Altered gene and protein expression patterns in SHRSP are consistent with increased vulnerability of this strain to cerebrovascular injury.
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PMID:Gene expression profiling and functional proteomic analysis reveal perturbed kinase-mediated signaling in genetic stroke susceptibility. 1290 46

Recent studies have shown that diets rich in monounsaturated fatty acids (MUFAs) from olive oil, a natural source of oleic acid, have beneficial effects on blood pressure (BP) in hypertensive patients. With this in mind, we investigated whether a synthetic derivative of the MUFA oleic acid, 2-hydroxyoleic acid (2-OHOA), was capable of regulating the BP of Sprague-Dawley rats. Intraperitoneal and oral administration of 2-OHOA to rats induced significant and sustained decreases in BP in a time-dependent manner. Without affecting heart rate, treatments for 7 days provoked reductions in systolic BP of 20 to 26 mm Hg. At the molecular level, the density of Galpha(s), but not Galpha(i2) or Galpha(o), increased in membranes from the hearts and aortas of 2-OHOA-treated rats, whereas in heart membranes, the density of Galpha(q)/11 and protein kinase Calpha proteins was also augmented. These molecular alterations were reflected in the increase in cAMP levels after Galpha(s) protein and beta-adrenergic receptor stimulation. On the contrary, inhibitory hormones reduced adenylyl cyclase activity to the same extent in 2-OHOA-treated rats as in vehicle-treated ones. Our results indicate that cardiovascular tissues from 2-OHOA-treated rats exhibited increased cAMP production in response to Galpha(s) activation, which might be attributed to enhanced expression of Galpha(s) proteins. As a result of this change, a significant reduction in systolic BP was observed. Therefore, BP can be lowered by administration of 2-OHOA, which might represent the first member of a new family of antihypertensive drugs.
Hypertension 2004 Feb
PMID:2-hydroxyoleic acid: a new hypotensive molecule. 1466 51

Nitric oxide (NO) has been shown to regulate a variety of physiological functions, including vascular tone. The inhibition of NO synthase by N(omega)-nitro-L-arginine methyl ester (L-NAME) has been reported to increase arterial blood pressure. The present studies were undertaken to investigate if the increased blood pressure by L-NAME is associated with enhanced expression of Gi proteins, implicated in the pathogenesis of hypertension. L-NAME was administered orally into Sprague-Dawley rats for a period of 4 weeks. Control rats were given plain tap water only. The systolic blood pressure was enhanced in L-NAME-treated rats as compared with control rats; however, the heart-to-body weight ratio was not different in the two groups. The levels of Gialpha-2 and Gialpha-3 proteins and their mRNA as determined by western and northern blotting, respectively, were significantly augmented in hearts from L-NAME-treated rats, whereas the levels of Gsalpha and Gbeta were unaltered. In addition, the effect of low concentrations of GTPgammaS on forskolin-stimulated adenylyl cyclase activity (receptor-independent functions of Gialpha) was significantly enhanced, whereas the receptor-dependent inhibitions of adenylyl cyclase were completely attenuated in L-NAME-treated rats. Whereas cholera toxin-mediated stimulation of adenylyl cyclase was unaltered in both group of rats, the stimulatory effects of some agonists on adenylyl cyclase activity were diminished in L-NAME-treated rats. These results suggest the implication of NO in the modulation of Gi protein expression and associated adenylyl cyclase signaling.
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PMID:Redox modulation of Gi protein expression and adenylyl cyclase signaling: role of nitric oxide. 1502 40

Long-term infusion of prostacyclin, or its analogs, is an effective treatment for severe pulmonary arterial hypertension. However, dose escalation is often required to maintain efficacy. The aim of this study was to investigate the mechanisms of prostacyclin receptor desensitization using the prostacyclin analog cicaprost in rat pulmonary artery smooth muscle cells (PASMCs). Desensitization of the cAMP response occurred in 63 nM cicaprost after a 6-h preincubation with agonist. This desensitization was reversed 12 h after agonist removal, and resensitization was inhibited by 10 microg/ml of cycloheximide. Desensitization was heterologous since desensitization to other G(s)alpha-adenylyl cyclase (AC)-coupled agonists, isoproterenol (1 microM), adrenomedullin (100 nM), or bradykinin (1 microM), was also reduced by preincubation with cicaprost. The reduced cAMP response to prolonged cicaprost exposure appeared to be due to inhibition of AC activity since the responses to the directly acting AC agonist forskolin (3 microM) and the selective AC5 activator NKH-477 were similarly reduced. Expression of AC2 and AC5/6 protein levels transiently decreased after 1 h of cicaprost exposure. The PKA inhibitor H-89 (1 microM) added 1 h before cicaprost preincubation (6 h, 63 nM) completely reversed cicaprost-induced desensitization, whereas the PKC inhibitor bisindolylmaleimide (100 nM) was only partly effective. Desensitization was not prevented by the G(i) inhibitor pertussis toxin. In conclusion, chronic treatment of PASMCs with cicaprost induced heterologous, reversible desensitization by inhibition of AC activity. Our data suggest that heterologous G(s)alpha desensitization by cicaprost is mediated predominantly by a PKA-inhibitable isoform of AC, most likely AC5/6.
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PMID:Mechanism of cicaprost-induced desensitization in rat pulmonary artery smooth muscle cells involves a PKA-mediated inhibition of adenylyl cyclase. 1510 93

Fetal malnutrition and hypoxia may modify organ system maturation and result in cardiovascular diseases in the adult. We tested whether intrauterine stress (IUS) leads to persistent alterations of renal biology. In rats, intrauterine stress was induced by ligation of the uterine arteries at day 17 of pregnancy. Renal arteries of the 21-day-old male offspring were isolated to study pharmacological reactivity. Kidneys were dissected to analyze renal structure and beta-adrenoceptor expression. At 21 days of age, half of the animals underwent unilateral left nephrectomy. At the age of 12 weeks, rats were instrumented for blood pressure monitoring, blood sampling, and renal function measurements. After IUS, litter size and birth weight were reduced, whereas the hematocrit was increased. Renal arterial responses to beta-adrenergic stimulation and sensitivity to adenylyl cyclase activation were increased, along with the renal expression of beta2-adrenoceptors. At 21 days and at 6 months of age, the number and density of the glomeruli were reduced, whereas their size was increased. The filtration fraction and urinary albumin concentration were increased 12 weeks after intrauterine stress. In control rats, removal of the left kidney at 21 days of age did not affect kidney function and blood pressure. However, after IUS, the remaining right kidney failed to compensate for the loss of the left kidney, and blood pressure was increased. In conclusion, prenatal stress transiently modifies renal arterial reactivity and results in long-lasting adverse effects on renal structure and function and on renal compensatory mechanisms.
Hypertension 2004 Jun
PMID:Reduced uteroplacental blood flow alters renal arterial reactivity and glomerular properties in the rat offspring. 1511 9


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