UMLS:C0020538 - FACTA Search

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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The clinical observation that hypertension is more common in males and postmenopausal women than in premenopausal women suggests vascular protective effects of female sex hormones, including hormone-mediated inhibition of vascular tone. The purpose of the present study was to investigate whether the Ca2+ mobilization mechanisms of vascular smooth muscle contraction are modified by gender and sex hormones. 2. Active stress and [45Ca2+] influx were measured in de-endothelialized aortic strips isolated from intact and gonadectomized male and female Sprague-Dawley rats. In normal Krebs' (2.5 mmol/L Ca2+), both phenylephrine (Phe; 10(-5) mol/L) and membrane depolarization by 96 mmol/L KCl increased active stress to 15.5 +/- 1.3 x 10(3) and 14.8 +/- 1.2 x 10(3) N/m2, respectively, and Ca2+ influx to 28.4 +/- 1.4 and 32.3 +/- 1.5 mumol/kg per min, respectively, in intact males. The Phe- and KCl-induced stress and Ca2+ influx were significantly reduced in intact females. Gonadectomy was associated with no significant changes in the Phe- and KCl-induced stress and Ca2+ influx in males, but was associated with significant enhancement in females. In Ca(2+)-free (2 mmol/L EGTA) Krebs', stimulation of intracellular Ca2+ release by Phe or caffeine (25 mmol/L) caused a transient contraction that was not significantly different in all groups of rats. 3. Exogenous application of 17 beta-oestradiol, progesterone or testosterone to aortic strips caused concentration-dependent inhibition of Phe- and KCl-stimulated contractions and Ca2+ influx. 17 beta-Oestradiol was the most effective hormone and its relative potency was intact males, castrated males and ovariectomized females > intact females. 4. Thus, vascular reactivity and Ca2+ entry in aortic smooth muscle are reduced in the presence and enhanced in the absence of female gonads. Both male and female sex hormones cause vascular relaxation, mainly by inhibiting Ca2+ entry, with oestrogen being the most effective, particularly in the absence of female gonads. The results suggest that a cellular mechanism of oestrogen-induced vascular relaxation involving inhibition of Ca2+ entry into vascular smooth muscle is gender dependent.
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PMID:Gender-specific inhibition of Ca2+ entry mechanisms of arterial vasoconstriction by sex hormones. 1049 60

Salt moderation is often recommended as a nonpharmacological therapy for hypertension, particularly in overweight individuals; however, the effects of low dietary salt on the Ca(2+)-dependent mechanisms of vasoconstriction are unclear. The purpose of this study was to investigate the effect of low salt diet on vascular reactivity and Ca2+ mobilization mechanisms and the modulation of these effects with obesity. Active stress and (45)Ca2+ influx were measured in deendothelialized aortic strips isolated from lean (3.74 kg) and obese (5.51 kg) female rabbits on a normal (0.75%) or low (0.23%) salt (sodium chloride) diet for 18 weeks. Both phenylephrine (Phe, 10(-5) mol/L) and membrane depolarization by 96 mmol/L KCl caused extracellular Ca(2+)-dependent increases in active stress and (45)Ca2+ influx. In lean rabbits, the Phe- and KCl-induced stress and Ca2+ influx were significantly greater with the low-salt versus the normal-salt diet. The Phe-induced Ca2+ influx-stress relationship was significantly greater than that induced by KCl with low-salt diet. In obese rabbits on a normal-salt diet, the Phe- and KCl-induced stress and Ca2+ influx were significantly less than that in lean rabbits but the Ca2+ influx-stress relationship was not significantly altered. Feeding the obese rabbits a low-salt diet was associated not only with significant increases in Phe- and KCl-induced active stress and Ca2+ influx but also with significant enhancement in the Ca2+ influx-stress relationship. In Ca(2+)-free (2 mmol/L EGTA) Krebs solution, stimulation of intracellular Ca2+ release by Phe or caffeine (25 mmol/L) caused a transient contraction that was not significantly different in all groups of rabbits. Thus, with normal salt intake, obesity is associated with a reduction in Ca2+ entry and vascular reactivity. Low-salt diet is associated with an increase in Ca2+ entry and vascular reactivity in both obese and lean rabbits. The enhancement of the Ca2+ influx-stress relationship with low-salt diet, particularly in the obese rabbits, suggests activation of other contractile mechanisms in addition to Ca2+ entry.
Hypertension 1999 Oct
PMID:Enhanced vascular reactivity and Ca2+ entry with low-salt diet: effect of obesity. 1052 78

Pregnancy-induced hypertension is associated with increased vascular resistance; however, the cellular mechanisms involved are unclear. We have previously found that the relation between Ca(2+) entry and the developed force in vascular smooth muscle is altered during normal pregnancy and in a rat model of pregnancy-induced hypertension produced by long-term treatment with the nitric oxide synthase inhibitor N(G)-nitro-L-arginine methyl ester (L-NAME). The purpose of this study was to investigate whether the pregnancy-associated changes in the vascular Ca(2+) entry-force relation reflect changes in the amount and/or activity of Ca(2+)-insensitive protein kinase C (PKC) isoforms. Active stress and the amount and activity of PKC were measured in deendothelialized aortic strips from nonpregnant and pregnant rats untreated or treated with L-NAME and incubated in Ca(2+)-free (2 mmol/L EGTA) Krebs solution. In nonpregnant rats, the PKC activator phorbol 12,13-dibutyrate (PDBu, 10(-6) mol/L) and the alpha-adrenergic agonist phenylephrine (Phe, 10(-5) mol/L) caused significant, maintained increases in active stress and PKC activity that were inhibited by the PKC inhibitors staurosporine and calphostin C. Western blots in aortic strips of nonpregnant rats revealed the Ca(2+)-insensitive delta-PKC and zeta-PKC isoforms. Both PDBu and Phe caused translocation of delta-PKC from the cytosolic to the particulate fraction. Compared with nonpregnant rats, the amount of delta-PKC and zeta-PKC and the PDBu-stimulated and Phe-stimulated stress, PKC activity and translocation of delta-PKC were significantly reduced in late pregnant rats but significantly enhanced in pregnant rats treated with L-NAME. The PDBu-induced and Phe-induced responses in nonpregnant rats treated with L-NAME were not significantly different from nonpregnant rats, whereas the responses in pregnant rats treated with L-NAME+L-arginine were not significantly different from pregnant rats. These results provide evidence that a signaling pathway in vascular smooth muscle possibly involving the Ca(2+)-insensitive delta-PKC and zeta-PKC isoforms is reduced in late pregnancy and enhanced during long-term inhibition of nitric oxide synthesis. The changes in the amount and activity of vascular PKC isoforms may, in part, explain the changes in vascular resistance during normal pregnancy and pregnancy-induced hypertension.
Hypertension 1999 Oct
PMID:Ca(2+)-insensitive vascular protein kinase C during pregnancy and NOS inhibition. 1052 86

Prolonged emotional stress is an important factor in the development of neurogenic hypertension, but its mechanism is still unclear. The purpose of the present study is to analyze the possible neural basis of hypertension induced by prolonged emotional stress. In the brain many nuclei are involved in emotional reaction, stress or defense response; among them the nucleus amygdaloideus centralis (AC) is the most important one which widely connects with other nuclei controlling emotion and stress, such as nucleus ventromedialis (NVM), nucleus dorsomedialis (NDM), nucleus paraventricularis (NPV) etc. These nuclei contain corticotropin releasing factor (CRF)- and substance P (SP)-immunoreactive cell bodies, nerve terminals and corresponding receptors. Our previous and present studies showed that microinjection of CRF or SP into these nuclei induced pressor responses. These data imply that excitation of the AC can activate many nuclei controlling emotion and stress via CRF and SP, and excessive activities of these nuclei may be the neural basis of hypertension induced by prolonged emotional stress. The present study revealed that (1) the AC pressor response to glutamate (Glu) could be reduced by preinjection of CRF antagonist (alpha-Helical CRF[9-41] or SP antagonist ([D-Pro(2), D-Phe(7), D-Trp(9)]-substance P) into bilateral NVM, (2) the NVM pressor response to Glu were decreased by pretreatment of the NDM with CRF- or SP-antagonist, (3) the AC-, NVM- or NDM-pressor responses were all attenuated by preinjection of CRF- or SP-antagonist into bilateral NPV or rostral ventrolateral medulla (RVL). The results indicate that excitation of the AC can indirectly activate the NPV and RVL to evoke pressor response via the NVM-NDM, CRF and SP are transmitters in each connection of this pathway; this is one component of the mechanism underlying the AC pressor response. Taken together with the findings of our previous studies, it provides neurophysiological basis for the above-mentioned implications.
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PMID:Corticotropin releasing factor and substance P mediate the nucleus amygdaloideus centralis-nucleus ventromedialis-nucleus dorsomedialis pressor system. 1052 35

Since the discovery of D20 (heavy water) and its use as a moderator in nuclear reactors, its biological effects have been extensively, although seldom deeply, studied. This article reviews these effects on whole animals, animal cells, and microorganisms. Both "solvent isotope effects," those due to the special properties of D20 as a solvent, and "deuterium isotope effects" (DIE), which result when D replaces H in many biological molecules, are considered. The low toxicity of D20 toward mammals is reflected in its widespread use for measuring water spaces in humans and other animals. Higher concentrations (usually >20% of body weight) can be toxic to animals and animal cells. Effects on the nervous system and the liver and on formation of different blood cells have been noted. At the cellular level, D20 may affect mitosis and membrane function. Protozoa are able to withstand up to 70% D20. Algae and bacteria can adapt to grow in 100% D2O and can serve as sources of a large number of deuterated molecules. D2O increases heat stability of macromolecules but may decrease cellular heat stability, possibly as a result of inhibition of chaperonin formation. High D2O concentrations can reduce salt- and ethanol-induced hypertension in rats and protect mice from gamma irradation. Such concentrations are also used in boron neutron capture therapy to increase neutron penetration to boron compounds bound to malignant cells. D2O is more toxic to malignant than normal animal cells, but at concentrations too high for regular therapeutic use. D2O and deuterated drugs are widely used in studies of metabolism of drugs and toxic substances in humans and other animals. The deuterated forms of drugs often have different actions than the protonated forms. Some deuterated drugs show different transport processes. Most are more resistant to metabolic changes, especially those changes mediated by cytochrome P450 systems. Deuteration may also change the pathway of drug metabolism (metabolic switching). Changed metabolism may lead to increased duration of action and lower toxicity. It may also lead to lower activity, if the drug is normally changed to the active form in vivo. Deuteration can also lower the genotoxicity of the anticancer drug tamoxifen and other compounds. Deuteration increases effectiveness of long-chain fatty acids and fluoro-D-phenylalanine by preventing their breakdown by target microorganisms. A few deuterated antibiotics have been prepared, and their antimicrobial activity was found to be little changed. Their action on resistant bacteria has not been studied, but there is no reason to believe that they would be more effective against such bacteria. Insect resistance to insecticides is very often due to insecticide destruction through the cytochrome P450 system. Deuterated insecticides might well be more effective against resistant insects, but this potentially valuable possibility has not yet been studied.
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PMID:Pharmacological uses and perspectives of heavy water and deuterated compounds. 1053 97

Reduction in uterine perfusion and the ensuing placental ischemia during late pregnancy have been proposed to trigger increases in systemic vascular resistance and pregnancy-induced hypertension; however, the intermediary mechanisms involved are unclear. The purpose of the present study was to test the hypothesis that reduced uterine perfusion pressure during late pregnancy is associated with impaired endothelium-dependent vascular relaxation and, consequently, enhanced systemic vascular reactivity. Active stress was measured in aortic strips isolated from late pregnant Sprague-Dawley rats and a hypertensive pregnant rat model produced through the long-term reduction in uterine perfusion pressure (RUPP). Phenylephrine (Phe, 10(-5) mol/L) caused an increase in active stress to 4.5+/-0.4x10(3) N/m(2) in normal pregnant rats and a larger increase to 9.4+/-0. 7x10(3) N/m(2) in RUPP rats. Removal of the endothelium significantly enhanced Phe-induced stress in pregnant (6.4+/-0. 6x10(3) N/m(2)) but not RUPP (9.95+/-0.95x10(3) N/m(2)) rats. In endothelium-intact strips, acetylcholine (ACh) was more potent in inducing relaxation of Phe contraction in pregnant (ED(50) 0. 1x10(-6) mol/L) than in RUPP (ED(50) 1.2x10(-6) mol/L) rats. Pretreatment of endothelium-intact strips with N(G)-nitro-L-arginine methyl ester(100 micromol/L), to inhibit nitric oxide (NO) synthase, significantly inhibited ACh-induced relaxation and enhanced Phe-induced stress in pregnant (6.2+/-0.5x10(3) N/m(2)) but not RUPP (9.5+/-0.85x10(3) N/m(2)) rats. Pretreatment of endothelium-intact strips with methylene blue (10 micromol/L), to inhibit cGMP production in smooth muscle, also inhibited ACh-induced relaxation and enhanced Phe-induced stress in pregnant (6.9+/-0.65x10(3) N/m(2)) but not RUPP (9.3+/-0.7x10(3) N/m(2)) rats. In endothelium-denuded strips, relaxation of Phe contraction with the exogenous NO donor sodium nitroprusside was not significantly different between pregnant and RUPP rats. These results suggest that an endothelium-dependent relaxation pathway involving the release of NO from endothelial cells and increased cGMP production in smooth muscle is inhibited in systemic vessels of late pregnant rats with reduced uterine perfusion pressure and may in part explain the increased vascular resistance in pregnancy-induced hypertension.
Hypertension 2000 Jan
PMID:Decreased endothelium-dependent vascular relaxation during reduction of uterine perfusion pressure in pregnant rat. 1064 26

Various studies have shown the involvement of extracardiac tissues in hypertension, including the hepato-intestinal tract, musculo-skeletal system, skin, and the kidney. It was our hypothesis that these perturbations in non-cardiac tissues would also include alterations in protein metabolism. Thus, the reported differences in soleus contractile protein composition may be related to changes in muscle protein synthesis or reduced protein synthetic efficiencies. The aim of the present study was to characterise tissue composition of nucleic acids and rates of protein synthesis in non-cardiac tissues, such as liver, skeletal muscle (i.e., the Type I fibre-predominant soleus and Type II fibre-predominant plantaris), kidney, bone (tibia), skin and the gastrointestinal tract in a genetic model of hypertension (i.e., spontaneously hypertensive rats (SHRs), 15 weeks old) compared to their genetic aged-matched counterparts, i.e., normotensive Wistar-Kyoto (WKY) controls. Rates of protein synthesis were measured in vivo after injection with a flooding dose of L-[4-(3)H]phenylalanine. The results showed changed tissue wet weights (g per organ) for plantaris (+10%, P<0.05), liver (+25%, P<0.01), brain (-9%, P<0.01), jejunum (+39%, P<0.001) and tibia (+17%, P<0.001) in SHRs compared to WKY controls. Protein content (g or mg per organ) was increased in the liver (+32%, P<0. 01) and tibia (+37%, P<0.05). RNA contents (mg per organ) were increased in plantaris (+17%, P<0.01), liver (+22%, P<0.01) and jejunum (+11%, P<0.05). DNA (mg per organ) was increased in plantaris (+16%, P<0.025) and jejunum (+12%, P<0.025). The protein synthetic capacities (i.e., C(s), mg RNA/g protein) were higher in soleus (+41%, P<0.01) and plantaris (+6%, P<0.05) muscles of SHRs compared to WKYs, whereas values were lower in liver (-11%, P<0.01) and kidney (-6%, P<0.01) of SHRs compared to WKYs. The fractional rate of protein synthesis (i.e., k(s), the percentage of the protein pool renewed each day) was not significantly different for any of the tissues, though the rate of protein synthesis per unit RNA (i.e., k(RNA), mg protein/day per mg RNA) was reduced in the soleus (-24%, P<0.05) and the synthesis rate per unit DNA, i.e., k(DNA) (mg protein/day per mg DNA) was increased in the tibia (+31%, P<0.025). This is the first report of significant differences between indices of protein metabolism in extracardiac tissues in hypertension, which may reflect endocrine factors and/or the systemic influence of hypertension per se.
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PMID:Non-cardiac nucleic acid composition and protein synthesis rates in hypertension: studies on the spontaneously hypertensive rat (SHR) model. 1069 31

Somatostatin, a peptide with antisecretory and antiproliferative effects, coexists with noradrenaline in sympathetic neurons. Octreotide, a stable somatostatin analogue, prevents hypertension and cardiovascular structural changes induced by prolonged infusion of DPSPX (1,3-dipropyl-8-sulfophenylxanthine, a non-selective adenosine receptor antagonist) in rats. In the present work we investigated the effect of somatostatin and its analogue octreotide on the release of [(3)H]noradrenaline from sympathetic nerves in the rat mesenteric artery. Rat mesenteric arteries were incubated for 60 min with [(3)H]noradrenaline (0.2 microm), mounted in perifusion chambers, washed out for 90 min and electrically stimulated (2 Hz, 5 min, 50 mA). Radioactivity was measured in the tissue and in the perifusion fluid before, during and after stimulation. Both somatostatin and octreotide inhibited tritium release evoked by electrical stimulation of in vitro preparations of rat mesenteric arteries preloaded with [(3)H]noradrenaline. The maximal effects produced by octreotide and somatostatin were a 56 and 70% inhibition of noradrenaline release, respectively. For somatostatin an EC(50)=0. 18 n m (0.01 n m-2.2 n m;n =16) was calculated. When used alone, the somatostatin receptor antagonist, cyclo(7-aminoheptanoyl-Phe- d -Trp-Lys-Thr[BZL]) (CYCAM; 1 microm), had no effect on noradrenaline release induced by electrical stimulation. However, it was able to significantly antagonize the inhibitory effects of octreotide and somatostatin. These results are compatible with a negative modulatory role of somatostatin on sympathetic neurotransmission.
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PMID:Somatostatin inhibits the release of noradrenaline induced by electrical stimulation of the rat mesenteric artery. 1070 76

Studies investigating the role of bradykinin in disease states such as hypertension, sepsis, and asthma have been confounded by difficulties in measuring the concentration of this short-lived peptide. The purpose of this study was to determine a stable metabolite of bradykinin in the systemic circulation of humans. Bradykinin (containing trace concentrations of [(3)H]bradykinin) was administered i.v. into three human volunteers in increasing amounts up to a maintenance rate of 200 ng/kg/min until a total dose of 1 mg was given. Metabolic products were purified and identified by HPLC and by electrospray ionization mass spectrometry. Infused bradykinin was rapidly degraded, such that no exogenous bradykinin was detected in venous plasma sampled during infusion. BK1-5 (Arg-Pro-Pro-Gly-Phe), the 1-to-5 amino acid fragment of bradykinin, was identified as a major stable plasma metabolite of bradykinin. Plasma concentrations of BK1-5 correlated with dose of bradykinin infused and concentrations at the end of bradykinin infusion were 1510 to 4600 fmol/ml of blood. BK1-5 was cleared from blood with a terminal half-life of 86 to 101 min. Thus, in humans, bradykinin is rapidly degraded in vivo to BK1-5, a stable metabolite. Measurement of this metabolite could provide a tool to assess pathophysiologic and pharmacologic alterations in systemic bradykinin generation associated with human disease.
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PMID:Metabolism of bradykinin In vivo in humans: identification of BK1-5 as a stable plasma peptide metabolite. 1087 21

The Dahl/Rapp rat model of hypertension is characterized by a marked increase in blood pressure and a progressive fall in glomerular filtration rate when salt-sensitive (S) rats are placed on an 8% NaCl diet. On the same diet, the salt-resistant (R) rat does not exhibit these changes. In previous studies we found that protein kinase C (PKC) upregulates Na(+)/Ca(2+) exchanger activity in afferent arterioles and mesangial cells from R but not S rats. One possible reason for the difference in PKC sensitivity may be due to differences in the S and R Na(+)/Ca(2+) exchanger protein. We now report the cloning of Na(+)/Ca(2+) exchangers from R (RNCX1) and S (SNCX1) mesangial cells. At the amino acid level, SNCX1 differs from RNCX1 at position 218 in the NH(2)-terminal domain where it is isoleucine in RNCX1 but phenylalanine in SNCX1. These two exchangers also differ by 23 amino acids at the alternative splice site within the cytosolic domain. RNCX1 and SNCX1 were expressed in OK-PTH cells and (45)Ca(2+)-uptake studies were performed. Acute phorbol 12-myristate 13-acetate (PMA) treatment (300 nM, 20 min) upregulated exchanger activity in cells expressing RNCX1 but failed to stimulate exchanger activity in SNCX1 expressing cells. Upregulation of RNCX1 could be prevented by prior 24-h pretreatment with PMA, which downregulates PKC. These results demonstrate a difference in PKC-Na(+)/Ca(2+) exchange activity between the isoform of the exchanger cloned from the R vs. the S rat. Lack of PKC activation of SNCX1 may contribute to a dysregulation of intracellular Ca(2+) concentration and enhanced renal vasoreactivity in this model of hypertension.
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PMID:Cloning of mesangial cell Na(+)/Ca(2+) exchangers from Dahl/Rapp salt-sensitive/resistant rats. 1089

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