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)

A quantitative histochemical study of succinate dehydrogenase (SDH) and NADH-dehydrogenase (NADH-D) activity in medulla oblongata structures was accomplished in rats with arterial renovascular hypertension of the "2 kidneys-2 clips" type lasting 5 months. The systolic arterial blood pressure measured by the tail-cuff method was 179 +/- 4 mm Hg in hypertensive rats versus 108 +/- 3 mm Hg in control. There was a significant elevation of SDH activity in the ventral reticular and commissural nuclei, while in the neurons of the vagus dorsal and ambiguous nuclei it was lowered. NADH-D activity was significantly increased in the neuropil of the hypoglossal nerve nucleus and reduced in its neurons. The general trend was also revealed toward reduction of the maximal and elevation of the minimal activities in other nuclei. These metabolic alterations reflect changes in the functional activity of vasomotor and other structures of the medulla oblongata in renovascular hypertension.
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PMID:[Functional activity of the structures of the medulla oblongata in rats with arterial hypertension of renal origin (histoenzymological research)]. 401 28

Stroke-prone spontaneously hypertensive rats with arterial blood pressure above 210 mmHg were taken for the present study after appearance of neurological symptoms. Regional cerebral blood flow, glucose metabolism, and protein synthesis rate were evaluated on the same brain section by means of triple-labelled autoradiographic techniques. Consecutive sections were used in the pictorial presentation of glucose, ATP, and serum protein extravasation. In addition, NADH-fluorescence was recorded. Two different patterns of hypertension-induced brain lesions could be distinguished: in two animals sharply demarcated cysts were visible in the cortical grey matter. In these animals no regional inhomogeneities of flow and metabolism were present remote from the infarct. In contrast, in three animals cysts were located in the white matter, leading to pronounced hemodynamic and metabolic disturbances throughout the brain. It is concluded that edema-induced brain swelling was the main cause for reduction in blood flow and metabolism.
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PMID:Regional cerebral blood flow, glucose metabolism, protein synthesis, serum protein extravasation, and content of biochemical substrates in stroke-prone spontaneously hypertensive rats. 404 48

Levels of energy metabolites were measured in forebrain regions in fasted rats subjected to 4-h recirculation after 1 h of either incomplete or complete ischemia. Both models of ischemia were produced by a procedure combining bilateral common carotid artery occlusion, systemic hypotension, and CSF pressure elevation; the degree of intracranial hypertension was varied to produce incomplete and complete ischemia. Levels of brain lactate at the end of ischemia ranged from 16 to 19 mmol/kg in incomplete ischemia and from 11 to 13 mmol/kg in complete ischemia. Energy metabolism recovered evenly in the neocortical and subcortical regions with recirculation after incomplete ischemia. The metabolic recovery in the cerebral cortex after complete ischemia was similar to that observed after incomplete ischemia; however, recovery in the subcortical regions after complete ischemia was less extensive, NADH fluorescence remained high, and there was a fall in total creatine. Intracellular pH in the dorsal thalamus was more alkalotic after complete than incomplete ischemia. Thus, in the absence of profound tissue lactic acidosis, residual CBF during prolonged ischemia helps postischemic restitution of brain energy metabolism in subcortical regions. The pattern of poor recovery in these regions after complete ischemia suggests inadequate reperfusion. The decreased total creatine and the severe tissue alkalosis may be biochemical markers of advanced tissue injury during reflow.
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PMID:Regional brain energy metabolism after complete versus incomplete ischemia in the rat in the absence of severe lactic acidosis. 405 23

The effects of stepwise arterial hypotension (MABP: 80, 60, 40 mm Hg) and moderate arterial hypo- and hypertension (MABP: 80, 150-160 mm Hg) on cerebrocortical vascular volume and NAD/NADH redox state were studied in anaesthetized cats. The vascular volume and NADH fluorescence measurements were performed on closed skull preparations using a microscope fluororeflectometer. To determine the possible role of adrenergic alpha-receptors in the autoregulatory adjustment of cerebrocortical vascular volume, some of the animals were pretreated with intra-arterially infused phenoxybenzamine (1 mg/kg). It was found that longlasting stepwise arterial hypotension leads to a gradual increase in cerebrocortical vascular volume and NADH fluorescence. Though the cerebrocortical arteries dilatated considerably at 80 mm Hg, sustained for 30 min, the NAD/NADH redox state failed to be reoxidized but was shifted to a more reduced state. This finding suggests that some factor other than tissue hypoxia is responsible for the dilatation of cerebrocortical vessels during moderate arterial hypotension. When the arterial blood pressure was restored following stepwise arterial hypotension, the cerebrocortical vascular volume did not decrease and the NAD/NADH redox state remained reduced, showing that the autoregulatory capability of the vessels was lost and the tissue metabolism was irreversibly altered. During a 5-min duration of moderate arterial hypo- and hypertension, biphasic changes were obtained in cerebrocortical vascular volume while the NAD/NADH redox state was shifted to a more reduced and oxidized state. Since the dilatation and the constriction of the cerebrocortical vessels during arterial hypo- and hypertension lagged by 40-80 s behind the redox state alterations, it is suggested that the myogenic mechanism has a minor role in CBF autoregulation. Phenoxybenzamine (PBZ) dilatated the cerebrocortical vessels, indicating the existence of an active alpha-receptor-mediated vasoconstrictory tone. Since the extent of autoregulatory vascular volume changes was not affected by PBZ pretreatment, the involvement of adrenergic alpha-receptors in the autoregulation of CBF can be excluded, at least for cats.
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PMID:Effect of acute arterial hypo- and hypertension on cerebrocortical NAD/NADH redox state and vascular volume. 707 33

11 beta-Hydroxysteroid dehydrogenase (11 beta-HSD) modulates glucocorticoid interactions with mineralocorticoid and glucocorticoid receptors in vivo, by converting 11 beta-hydroxyglucocorticoids to their inactive 11-ketone derivatives. Defective 11 beta-oxidation of glucocorticoids has been associated with hypertension. The objective of this study was to investigate whether 11 beta-HSD contributes to the occurrence of hypertension in spontaneously hypertensive rats (SHRs). The liver and kidney microsomal oxidations of corticosterone (the physiological glucocorticoid in rats) in organs from juvenile (3 weeks old) and adult (3 months old) SHR and Wistar-Kyoto (WKY) rats, with NAD and NADP, show no differences between rat strains. For cortisol, with NADP, adult SHRs show (1.3-3 times; P < 0.05) lower kidney microsomal oxidation rates. The liver microsomal reduction of cortisone shows remarkable interstrain differences; with NADH, reduction is conducted only by adult WKY rats, whereas with NADPH, juvenile animals show similar reduction rates, but at adulthood, only WKYs reduce cortisone. Using Western blot analysis with antibodies against 11 beta-HSD1, positive signals are obtained only for liver microsomes, appearing somewhat lower in SHRs for juvenile but not adult animals. Urinary corticosterone/11-dehydrocorticosterone ratios (measured in adult animals) are not different between rat strains, but are elevated after administration of corticosterone in both strains (although significant only in SHRs). The data provide no indications for exaggerated stimulation of renal corticosteroid receptors, due to modified 11 beta-HSD, in SHRs. However, the experiments suggest the existence of multiple 11 beta-HSDs, in addition to 11 beta-HSD1 and 11 beta-HSD2, some of which may be modified in SHR, but the nature and physiological role of these 11 beta-HSDs is unclear.
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PMID:Comparison of 11 beta-hydroxysteroid dehydrogenase in spontaneously hypertensive and Wistar-Kyoto rats. 858 2

We tested the hypothesis that angiotensin II-induced hypertension is associated with an increase in vascular .O2- production, and characterized the oxidase involved in this process. Infusion of angiotensin II (0.7 mg/kg per d) increased systolic blood pressure and doubled vascular .O2- production (assessed by lucigenin chemiluminescence), predominantly from the vascular media. NE infusion (2.75 mg/kg per d) produced a similar degree of hypertension, but did not increase vascular .O2- production. Studies using various enzyme inhibitors and vascular homogenates suggested that the predominant source of .O2- activated by angiotensin II infusion is an NADH/NADPH-dependent, membrane-bound oxidase. Angiotensin II-, but not NE-, induced hypertension was associated with impaired relaxations to acetylcholine, the calcium ionophore A23187, and nitroglycerin. These relaxations were variably corrected by treatment of vessels with liposome-encapsulated superoxide dismutase. When Losartan was administered concomitantly with angiotensin II, vascular .O2- production and relaxations were normalized, demonstrating a role for the angiotensin type-1 receptor in these processes. We conclude that forms of hypertension associated with elevated circulating levels of angiotensin II may have unique vascular effects not shared by other forms of hypertension because they increase vascular smooth muscle .O2- production via NADH/NADPH oxidase activation.
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PMID:Angiotensin II-mediated hypertension in the rat increases vascular superoxide production via membrane NADH/NADPH oxidase activation. Contribution to alterations of vasomotor tone. 862 76

The levels of activity of some enzymes involved in oxidative metabolism have been determined in left ventricular tissue from spontaneously hypertensive rats compared with those in normotensive controls. Levels of pyruvate kinase were increased about 1.3 fold indicative of elevated glycolytic activity. Similarly, enhanced levels of lactate dehydrogenase were found, consistent with a requirement for increased oxidation of cytosolically-generated NADH. In addition a more active malate-aspartate shuttle, which in heart provides the major route for transfer of reducing equivalents to the mitochondria, was suggested by elevated levels of the cytosolic isoenzyme of aspartate aminotransferase; malate dehydrogenase did not increase but the activity of this enzyme is very high and unlikely to be rate-limiting in the shuttle. The levels of expression of mRNAs for three of these enzymes (pyruvate kinase, aspartate aminotransferase and malate dehydrogenase) were also determined and correlated well with the extent of change, if any, in the changes in enzymatic activity. Thus it seems that one response to development of hypertension in rats is an increase in expression of the genes for certain key enzymes involved in oxidative metabolism.
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PMID:Changes in enzyme levels in hypertensive heart tissue. 862 6

Recent studies suggest that superoxide production by the NADPH/NADH oxidase may be involved in smooth muscle cell growth and the pathogenesis of hypertension. We previously showed that angiotensin II (Ang II) activates a p22phoxbased NADPH/NADH oxidase in cultured rat vascular smooth muscle cells and in animals made hypertensive by infusion of Ang II. To investigate the mechanism responsible for this increased oxidase activity, we examined p22phox mRNA expression in rats made hypertensive by implanting an osmotic minipump that delivered Ang II (0.7 mg/kg per day). Blood pressure began to increase 3 days after the start of Ang II infusion and remained elevated for up to 14 days. Expression of p22phox mRNA in aorta was also increased after 3 days and reached a maximum increase of 338 +/- 41% by 5 days after pump implantation compared with the value after sham operation. This increase in mRNA expression was accompanied by an increase in the content of the corresponding cytochrome (twofold) and NADPH oxidase activity (179 +/- 11% of that in sham-operated rats 5 days after pump implantation). Treatment with the antihypertensive agents losartan (25 mg/kg per day) or hydralazine (15 mg/kg per day) inhibited this upregulation of mRNA levels and activity. Furthermore, infusion of recombinant heparin-binding superoxide dismutase decreased both blood pressure and p22phox mRNA expression. In situ hybridization of aortic tissue showed that p22phox mRNA was expressed in medial smooth muscle as well as in the adventitia. These findings suggest that Ang II-induced hypertension activates the NADPH/NADH oxidase system by upregulating mRNA levels of one or several components of this oxidase system, including the p22phox, and that the NADPH/NADH oxidase system is associated with the pathology of hypertension in vivo.
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PMID:p22phox mRNA expression and NADPH oxidase activity are increased in aortas from hypertensive rats. 897 21

Angiotensin II is a multifunctional hormone that affects both contraction and growth of vascular smooth muscle cells through a complex series of intracellular signaling events initiated by the interaction of angiotensin II with the AT1 receptor. The cellular response to angiotensin II is multiphasic, involving stimulation within seconds of phospholipase C and Ca2+ mobilization; activation within minutes of phospholipase D, A2, protein kinase C, and MAP kinase; and stimulation after a period of hours of gene transcription and NADH/NADPH oxidase activity. Angiotensin II also activates numerous intracellular tyrosine kinases. In this respect, it shares some aspects of signaling with growth factor and cytokine receptors, including activation of phospholipase C-gamma, src, and ras; association of shc with grb2; and stimulation of the Jak/STAT pathway. The cellular events responsible for this unique series of events may involve receptor movement and the creation of a signaling domain. Elucidation of these pathways is important to our understanding of AT1 receptor function as a final effector of the renin-angiotensin system.
Hypertension 1997 Jan
PMID:Angiotensin II signaling in vascular smooth muscle. New concepts. 903 29

Hypertension imposes an oxidant stress on the aorta and also causes mechanical deformation of the aortic wall. To assess whether deformation causes an oxidative stress, isolated porcine aortic endothelial cells (PAEC) were subjected to cyclic strain, and the cumulative amount of thiobarbituric acid reactive substances (TBARS, an index of lipid peroxidation) and H2O2 (a reactive oxygen species) was measured in the eluent at 2, 6, and 24 h. TBARS were increased by 40.5 +/- 9.2% after 24 h in cells exposed to cyclic strain vs. static controls (P < 0.05). No difference was seen at 2 and 6 h. H2O2 release was increased after 6 and 24 h of cyclic strain by 22.0 +/- 8.0 and 57.6 +/- 11.1 nmol H2O2/mg, respectively (P < 0.005), but was not increased after 2 h of strain. In vascular smooth muscle cells, TBARS were not observed and H2O2 release was not increased by cyclic strain. To investigate a potential source of H2O2 induced by strain, the activity of NADH/NADPH oxidase, a superoxide-generating enzyme, was measured by chemiluminescence. After 2 h, cells exposed to cyclic strain had greater activity than static controls (531.0 +/- 68.4 vs. 448.3 +/- 54.2 pmol O2- x mg(-1) x s(-1), respectively, when incubated with NADH, P < 0.005; 85.8 +/- 8.9 vs. 71.6 +/- 3.8 pmol O2- x mg(-1) x s(-1) when incubated with NADPH, P < 0.05). No effect on NADH/NADPH oxidase activity was seen after 6 or 24 h. The following conclusions were made: 1) cyclic strain induces an oxidant stress in PAEC monolayers as measured by TBARS formation and H2O2 release, 2) NADH/NADPH oxidase is a potential source of H2O2 release in cyclically strained cells, and 3) mechanical deformation of endothelial cells may play a critical role in the generation of oxidative stress within the vessel wall.
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PMID:Cyclic strain induces an oxidative stress in endothelial cells. 912 84


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