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)

Potassium channels activators (PCA) are drugs which open or prolong the open state duration of potassium channels. Hence they promote potassium efflux, hyperpolarize the cell membrane, thus preventing intracellular penetration of calcium through the voltage-dependent calcium channels. The resulting decrease in intracellular free calcium concentration induces relaxant effects in smooth muscle cells (vessels, bronchi, bladder, etc.) which are the rationale for the present and future therapeutic indications of PCA, namely hypertension, asthma, etc. In animals, PCA produce vasodilating, hypotensive and antihypertensive effects, accompanied by tachycardia and stimulation of the renin-angiotensin system. The regional vasodilator profile of PCA is heterogeneous and their hypotensive properties are antagonized only by glibenclamide, an antagonist of ATP-dependent potassium channels. In patients, only pinacidil, minoxidil and diazoxide are presently used as antihypertensive drugs.
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PMID:[Potassium channel activators: from pharmacology to therapeutics]. 269 37

Malignant hyperthermia (MH) is a pharmacogenetic disease in man and animals. It primarily involves skeletal muscle tissue, but other tissues might be affected to a lesser degree. Calcium homeostasis in muscle cells is upset in susceptible individuals, so that various agents and circumstances can increase the free, ionised intracellular calcium concentration to damaging levels. The primary defect is not known at present, but is believed to involve an abnormally sensitive calcium-induced calcium release mechanism. Thus small, localised increases in calcium concentration releases more calcium so that a vicious cycle is triggered. The increased calcium concentration causes multiple effects in the muscles by stimulating contraction and a hypermetabolic state, clinically observed as rigidity and fever. If demands on the homeostatic mechanisms to lower the calcium concentration become exhausted, and metabolism is insufficient to supply enough phosphocreatine and ATP, membrane potentials cannot be maintained, and permeability of the cell membranes increase. This causes loss of phosphate and H+ as well as K+ and Mg++, and later myoglobin and creatine kinase. Thereby oxidative metabolism is further impeded with formation of lactate as a result. The ensuing acidosis stimulates sympathetic innervation, resulting in tachycardia, high blood pressure, and vasoconstriction. Hyperkalemia causes arrhythmia. Dantrolene inhibits the release of calcium and can halt the process if given before depletion of the energy rich phosphates is too advanced.
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PMID:Pathophysiology of malignant hyperthermia. 269 55

Protamine, a polycationic protein used to reverse heparin anticoagulation, is frequently associated with decreased oxygen consumption, systemic hypotension, pulmonary artery hypertension, and bradycardia. This investigation examines the hypothesis that these events reflect toxic effects of protamine on endothelial cells. Cultured bovine pulmonary artery endothelium was exposed to protamine (12.5 to 500 micrograms/ml, corresponding to clinical doses 0.75 to 30 mg/kg), either alone (n = 6) or 3 minutes after exposure to heparin, 0.1 IU/microgram protamine (n = 6). ATP was measured 1 to 180 minutes after protamine by a luciferase-luciferin assay and cell viability determined by trypan blue exclusion. Ultrastructure was assessed by transmission electron microscopy. Polylysine, 25 micrograms/ml, a cytotoxic polycationic agent, was also studied. Dose-dependent reductions in ATP (range, -11% to -51%) and ATP per viable cell (up to -41%) occurred. Decreases in ATP did not occur until after 30 minutes with protamine alone, compared with differences as early as 1 minute after protamine with prior heparin. Progressive mitochondrial injury was noted evident by swollen cristae, vacuolization, and eventual disruption. Polylysine caused similar changes. Protamine decreases endothelial cell ATP and prior heparin exposure accelerates this effect. The toxicity may reside in the positive charges on these molecules and mitochondrial damage may account for reductions in cellular ATP and systemic oxygen consumption.
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PMID:Protamine-induced reductions of endothelial cell ATP. 276 36

The authors studied thrombin-induced aggregation of blood platelets washed clean of plasma and some parameters of their energetic status (content of ATP, ADP, and glycogen) in rats with acute vasorenal hypertension (AVH). Sensitivity of platelets to thrombin, the inductor of aggregation, was found to be increased and the initial aggregation in rats with AVN accelerated as compared to that in the controls. At the same time, the total adenine nucleotide content in platelets of rats with AVH was reduced--the ATP content by 33% and the glycogen content by 27%. The data obtained provide evidence that there is no correlation between the ATP and glycogen content in rat platelets and their ability for aggregation.
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PMID:[Aggregation of blood platelets and their energetic status in acute arterial hypertension]. 279 3

We tested the hypothesis that a metabolic error may be the triggering mechanism which leads to blood-vessel hypertrophy and hypertension. Young spontaneously hypertensive rats (SHR) were fed a moderately high salt diet to exacerbate the purported metabolic error. Haematocrit values and rubidium transport were measured as evidence of renal ATP deficiency and blood-vessel adaptation. The renin system was inhibited in two groups of SHR by giving them enalapril to determine whether angiotensin II was involved in blood-vessel adaptation. Spontaneously hypertensive rats fed the moderately high salt diet had higher haematocrit values than normotensive rats fed the same diet or SHR fed Purina rat food, suggesting a renal ATP deficiency. Spontaneously hypertensive rats had higher Na+,K+-ATPase activity in thoracic aorta after 60 min incubation than a similar group given enalapril (P less than 0.001), suggesting blood-vessel adaptation. Possibly, angiotensin II within the vasa vasorum stimulates hypertrophy which, according to the Folkow hypothesis, leads to higher blood pressure, but may concomitantly increase the respiratory chain units which provide ATP for renal function and ion transport.
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PMID:Effect of a renin-system inhibitor on blood-vessel adaptation in spontaneously hypertensive rats. 282 Dec 7

New method for measuring plasma and urinary Na-K-ATPase inhibitor (ATPI) was developed. Plasma and urine were extracted with reversed phase cartridge column and sample was reconstituted by assay buffer. Na-K-ATPase inhibitory activity of sample was monitored by continuously recording the absorbance of NADH at 340 nm, which coupled to the dephosphorylation of ATP. Ouabain was used for standards of Na-K-ATPase inhibition and this standard showed good linearity ranged 5-100 nmol/ml. Using this new method, P-ATPI and U-ATPI were quantitatively evaluated and paradoxical Na-K-ATPase stimulating phenomenon which observed in conventional method (Hamlyn et al) was diminished. Adopting of this new method for measuring plasma(P-) and urinary(U-)ATPI, and radioimmunoassay for P- and U-digitalis-like substance(DLS)--using crossreactivity to anti digoxin antibody--, these substances were estimated in patients with essential hypertension (EHT), chronic heart failure(CHF), primary and idiopathic hyperaldosteronism(HA), hyperthyroidism(BA) and chronic renal failure(CRF). In EHT, U-DLS, P-DLS, U-ATPI, P-ATPI were significantly higher than those of control(C). In CHF and BA, U-DLS and -ATPI were also significantly higher than those of C. In HA, U-ATPI, DLS distributed in wide range, and a few patients showed high levels of U-DLS and -ATPI. In CRF, P-DLS and -ATPI levels were significantly higher than those of C in prehemodialytic state but P-ATPI was significantly decreased after hemodialysis. From these results it is suggested that 1) DLS and ATPI might contribute to the etiology of hypertension. 2) Volume expansion stimulates the secretion of DLS and ATPI. 3) Stimulatory effect of volume expansion and inhibitory effect of mineralocorticoid may be responsible for wide distribution of these factors in HA. 4) DLS and ATPI are not the same substances.
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PMID:[Endogenous digitalis-like substance and Na-K-ATPase inhibitor in cardiovascular and renal disease]. 283 14

The hormone-sensitive adenylate cyclase system of plasma membrane is composed of at least three types of proteins: hormone receptors, activatory (Gs) and inhibitory (Gi) guanine nucleotide-regulatory proteins and the catalytic unit (C). Abnormal hormonal regulations of platelet adenylate cyclase in both humans and experimental animals have been reported to occur in hypertension. However, little is known about the mechanisms for these alterations. The aim of the present study was to compare the activity of C and the inhibitory capacity of Gi in platelet membranes from spontaneously hypertensive rats (SHR) and their normotensive controls (WKY). Adenylate cyclase activity of 40,000 g membranes was assessed at pH 7.5 with 0.1 mM (alpha-32P) ATP and an appropriate bivalent cation (Mn2+ or Mg2+). Under incubation conditions that uncoupled C from Gs and Gi (25 mM MnCL2, 100 microM forskolin), a significantly lower adenylate cyclase activity was measured in membranes from SHR rats (2.07 +/- 0.12 vs 2.36 +/- 0.1 nmol cAMP/mn/mg of protein, p less than 0.05). This difference between the two strains was also observed in platelet homogenates. In a second kind of experiments, membranes were incubated with 2.1 mM MgCl2 instead of MnCl2. In both strains of rats, low concentrations of Gpp (NH)p (10 to 300 nM) inhibited adenylate cyclase activity when stimulated by 50 microM forskolin. However, the maximal extent of inhibition was significantly reduced in hypertensive rats (49.7 +/- 2.4 vs 60.5 +/- 2.3 p. 100, p less than 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Anomalies of the adenylate cyclase system in platelets of the SHR rat]. 284 72

Hypoxia abolishes breathing movements in fetal sheep, perhaps by reducing ATP synthesis within regulatory brain cells. This possibility was examined by administering to 13 chronically catheterized fetal sheep oligomycin B, a mitochondrial ATPase inhibitor. Injections into the left external carotid artery of oligomycin B (170 +/- 19 micrograms/kg in 9 fetuses) reduced significantly (P less than 0.01) the incidence of fetal breathing movements from a control mean of 52 +/- 6.3% to 6 +/- 2.2 and 9 +/- 4.4% during the first and second hours after drug injection. Oligomycin did not decrease significantly the incidence of low voltage electrocortical activity or reduce the average duration of a cycle of low and high voltage electrocortical states. Nor did it decrease significantly the incidence of rapid eye movements. Fetal heart rate and mean arterial pressure were not significantly affected, and the arterial blood gases and pH did not significantly differ from control values. However, a large dose of the drug (700 micrograms/kg) produced an isoelectric electrocorticogram, hypertension, and bradycardia associated with a rise in arterial PO2 and a severe metabolic acidosis. In 3 fetal sheep oligomycin also inhibited continuous breathing induced by indomethacin. Injection of the vehicle (ethanol) alone did not alter the incidence of breathing movements, electrocortical activity, eye movements or blood gases. These results suggest that reduced mitochondrial production of ATP may be a mechanism by which hypoxia abolishes fetal breathing activity.
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PMID:Fetal breathing movement, sleep state and cardiovascular responses to an inhibitor of mitochondrial ATPase in sheep. 293 31

In order to establish at subcellular level the biochemical role of cadmium in the etiology of arterial hypertension, we studied the effect of this metal on some mitochondrial functions. The results showed that cadmium inhibits calcium uptake as well as stimulates calcium release in kidney mitochondria. By the same token Cd2+ inhibits the ADP and ATP exchange-reaction and also inhibits succinate oxidation. From these results it is proposed that C d2+ interacts with--SH groups that are important for energy--linked reactions and calcium transport; the above produces metabolic modifications that may result in hypertensive disease.
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PMID:[Molecular bases of arterial hypertension induced by cadmium]. 294 89

Chronic pain emotional stress (PES), paired action of the white noise and electric skin stimulation and chronic (during 7 months) ethanol consumption in white rats were shown to act in the same direction. Hypertension, decrease of respiratory rate and increase of Hildebrandt index were observed as a result of PES, ethanol consumption, and especially under PES during ethanol consumption. Ethanol consumption by the animals led to their growth retardation and increase of the spleen and heart mass. Accidental thymus involution was noted both under ethanol consumption and PES. Activation of lipid peroxidation and decrease of superoxide dismutase activity (of its mitochondrial form especially) as well as of Na+,K+-ATP-ase activity were observed in brain homogenates of the rats after PES, while the general ATP-ase activity remained unchanged. An increase of triiodothyronine level and the tendency to thyroxine level increase as well as a decrease of superoxide dismutase activity were observed in the blood serum of these animals. A tendency towards lipid peroxidation level decrease and to brain superoxide dismutase activity increase, as well as blood antioxidation activity increase (evaluated by transferrin and coeruloplasmin contents and by serum superoxide dismutase activity) and a decrease of thyroxine level were observed as a result of ethanol consumption. The mechanisms are discussed of the "anti-stress" action of short-term ethanol consumption and of the action of its chronic consumption, additive to PES.
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PMID:[Effect of chronic ethanol consumption on emotional stress in the white rat]. 294 40

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