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)

To determine whether chronic high-fructose feeding causes insulin resistance and hypertension in normal dogs, we fed 10 male dogs a normosodic diet containing 60% of the calories as fructose for 20 to 28 days; a control group of 8 dogs was fed a similar diet containing dextrose instead of fructose. In the fructose-fed group, (1) fasting triglyceridemia increased from 35.3 +/- 0.63 to 91.9 +/- 11.55 mg/dL after 25 days (P < .001); (2) fasting insulinemia increased from 19.0 +/- 1.9 to 58.9 +/- 7.22 microU/mL after 25 days (P < .001); (3) insulin resistance, which was estimated by steady-state glycemia during an insulin suppression test, increased from 105.8 +/- 21.5 to 187.8 +/- 32.6 mg/dL after 15 days (P < .001), whereas steady-state insulinemia did not change; (4) mean arterial pressure increased from 100.4 +/- 1.6 to 122.6 +/- 2.3 mm Hg after 28 days (P < .01); and (5) cumulative sodium balance was increased on days 7 through 11 (111.60 +/- 4.44 mEq on day 8, P < .01), returning to normal for the rest of the experiment. All these parameters were similar between the fructose-fed and dextrose-fed groups before the diets were started and remained constant in the dextrose-fed group. Neither group showed any change in body weight, fasting plasma glucose, atrial natriuretic factor, or endothelin-1 levels. We conclude that chronic high-fructose feeding elicits hypertriglyceridemia, insulin resistance, hyperinsulinemia, hypertension, and a transient sodium retention in dogs without fostering fasting hyperglycemia or weight gain.(ABSTRACT TRUNCATED AT 250 WORDS)
Hypertension 1994 Apr
PMID:High-fructose feeding elicits insulin resistance, hyperinsulinism, and hypertension in normal mongrel dogs. 814 15

The structure of the histidine-binding protein (HBP, M(r) = 26,100), involved solely in active transport, has been determined by the molecular replacement technique and refined to 1.89-A resolution and to an R-factor of 0.199. The structure is that of two protein molecules, each with a bound L-histidine, in the asymmetric unit. Replacement solution was achieved by using a model of the crystal structure of the ligand-free, open-cleft form of the lysine/arginine/ornithine-binding protein which was modified so that the two domains are close to each other by bending the hinge connecting the two domains. The bound histidine is held in place by 10 hydrogen bonds, 2 salt links, and about 60 van der Waals contacts. Elucidation of the HBP structure brings a total of eight different binding proteins structures determined in our laboratory, including those with specificities for monosaccharides, maltodextrins (linear and cyclic), aliphatic amino acids, and inorganic oxyanions. These structures comprise about a third of the entire family of periplasmic binding proteins which act as initial primary high-affinity receptors of active transport in Gram-negative bacteria. Two of the binding proteins with specificities for glucose/galactose and maltodextrins also serve in a similar capacity in chemotaxis. Though these proteins have different molecular weights (ranging from 26,000 to 40,000), amino acid sequences, and ligand specificities, their three-dimensional structures are similar overall. They are elongated (axial ratios of 2:1) and composed of two similar globular domains separated by a deep cleft wherein the ligand-binding site is located. These structures provide understanding of molecular recognition of a variety of ligands at the atomic level and functional roles of the binding proteins.
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PMID:Refined 1.89-A structure of the histidine-binding protein complexed with histidine and its relationship with many other active transport/chemosensory proteins. 816 36

1. The effects of 6 h infusion of adrenaline (INF-A) or dextrose (INF-D) and of post-infusion cold pressor test (CPT) were compared in normal subjects, with (FH+) and without (FH-) a family history of hypertension. 2. Increased urinary excretion rates suggested facilitated noradrenaline (NA) release during and after INF-A in both FH+ and FH-. 3. Urinary adrenaline (UADR) excretion increased during INF-A, as expected, and was also slightly higher after INF-A than INF-D. 4. The effect of INF-A on systolic blood pressure (SBP) was greater in FH- than in FH+ but diastolic blood pressure (DBP) did not fall as quickly with nocturnal recumbency after INF-A in FH+. 5. A significantly greater response in plasma NA to CPT was seen in FH+ than in FH- after INF-A. A similar trend was also seen after INF-D. 6. Increases in DBP due to CPT were higher in FH+ than in FH- after both infusions. 7. This study provides evidence of increased noradrenergic activity during and after INF-A, and also of a difference in response to sympathetic stimulation between FH+ and FH-.
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PMID:Effect of positive family history of hypertension on the blood pressure and catecholamine responses to a 6 hour adrenaline infusion. 832 31

We reported previously that genetic polymorphisms of the alpha 2-adrenergic receptor are associated with hyperinsulinemia, diabetes mellitus, and hypertension in blacks. The evolutionary driving force for maintaining such deleterious mutations in the black population is unknown. Recognizing that vascular alpha 2-adrenergic receptors mediate cold-induced vasoconstriction and that temperature maintenance is a primary thrust of cellular metabolism, we postulated that vascular alpha 2-adrenergic receptors contribute significantly to metabolic heat generation in homeotherms such as humans. Using aerobic lactate production as an indicator of thermogenesis, we measured metabolic heat production in HT29 cells that expressed the gene encoding human vascular alpha 2-adrenergic receptors. Epinephrine, an alpha 2-adrenergic receptor agonist, increased net lactate efflux from 226 +/- 20 to 280 +/- 20 nmol/min (mean +/- SE) (P = .06). Clonidine, a more specific alpha 2-adrenergic agonist, increased lactate efflux from 110 +/- 6 to 156 +/- 8 nmol/min (P < .01). Similarly, in the presence of physiological concentrations of glucose (5.5 mmol/L), insulin increased lactate production from 123 +/- 6 to 175 +/- 10 nmol/min (P < .01). Because differences in aerobic glycolysis may also explain the heat intolerance and abnormal fuel homeostasis found in genetically hypertensive rats, we also measured lactate production in cultured vascular smooth muscle cells isolated from stroke-prone spontaneously hypertensive rats (SHRSP) and normotensive control Wistar-Kyoto rats (WKY). Vascular smooth muscle cells from SHRSP had significantly greater lactate efflux compared with cells from normotensive WKY (296 +/- 4 versus 172 +/- 2 nmol/min, P < .001). These differences were not due to abnormalities in glucose uptake, as lactate efflux was greater in SHRSP cells compared with WKY cells when dextrose was replaced with equimolar concentrations of fructose (230 +/- 6 versus 138 +/- 2 nmol/min, P < .001). alpha 2-Adrenergic agonists increase lactate efflux in HT29 cells, and abnormalities in vascular smooth muscle lactate metabolism in genetically hypertensive rats is independent of altered glucose uptake. These data provide support for our hypothesis that balanced polymorphisms of the alpha 2-adrenergic receptor could offer protection against cold stress by increasing the thermogenic response associated with aerobic lactate production.
Hypertension 1996 May
PMID:Alpha 2-adrenergic agonists increase cellular lactate efflux. 862 Dec 3

The current studies explore the effect of hypertension on D-glucose transport into jejunal brush-border membrane vesicles (BBMV). Spontaneously hypertensive rats (SHR) and normotensive Wistar-Kyoto (WKY) rats, as a control group, were used. The purity of the BBMV from both groups of animals was validated by the finding that the specific activity of brush-border enzyme marker, sucrase, was severalfold greater in membrane vesicles compared with corresponding values in mucosal homogenate. D-glucose uptake was Na+ dependent in both groups of animals, with a transient increase in the intravesicular concentration of D-glucose. However, the initial rate and the magnitude of the accumulation of Na+-dependent D-glucose was significantly higher in SHR compared with WKY rats. In order to investigate the mechanism(s) for the increase in Na+-dependent D-glucose transport in SHR, several experiments were performed: (1) an experiment that indicated 22Na uptake, as an indicator for Na+ permeability, was similar between SHR and WKY rats, (2) kinetic studies that indicated that Vmax values of SHR were significantly greater that those of WKY rats. In contrast, similar Km values for glucose were found between SHR and WKY rats, (3) Na+-dependent phlorizin binding measurements that were not altered by hypertension and (4) a study of the brush-border membrane lipid composition that showed a significant increase in the free cholesterol/phospholipid ratio in SHR. We conclude that altered membrane cholesterol content and consequently altered lipid fluidity could be, at least in part, responsible for the observed increase in Na+-dependent D-glucose transport in SHR.
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PMID:Increased sodium-dependent D-glucose transport in the jejunal brush-border membrane of spontaneously hypertensive rat. 866 84

The lipid composition and fluidity of jejunal brush-border membrane vesicles (BBMV) have been studied in spontaneously hypertensive rats (SHR) and normotensive Wistar Kyoto (WKY) rats. The activities of both Na(+)-dependent D-glucose cotransport and Na(+)-H+ antiport have also been determined. A significant increase in the level of free cholesterol was observed in jejunal BBMV from SHR compared to WKY rats. Since phospholipid values did not change in either group of animals, a significant enhancement in the free cholesterol/phospholipid ratio was observed in SHR. A decrease in the levels of phosphatidylethanolamine together with an increase in the values of phosphatidylserine was observed in hypertensive rats. Although the content of phosphatidylcholine (PC) and sphingomyelin (SM) was not significantly altered in SHR, the ratio PC/SM significantly increased in these animals when compared to WKY rats. The major fatty acids present in bursh-border membranes prepared from SHR and WKY rats were palmitic (16:0), stearic (18:0), oleic (18:1, n-9) and linoleic (18:2, n-6), and the fatty acid composition was not modified by the hypertension. A decreased fluorescence polarization, i.e., increased membrane fluidity, was observed in SHR, which was not correlated to the increased ratio of cholesterol/phospholipid found in the brush-border membrane isolated from these animals. These structural changes found in SHR were associated to an enhancement in both Na(+)-dependent D-glucose transport and Na(+)-H+ antiport activity in the jejunal BBMV of SHR.
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PMID:Lipid composition and fluidity in the jejunal brush-border membrane of spontaneously hypertensive rats. Effects on activities of membrane-bound proteins. 884 72

Clinical and experimental investigations indicate that one of the causes of primary hypertension may be diminished membrane sodium efflux. Magnesium is thought to be one of necessary factors that influence normal sodium membrane efflux and thereby maintains correct membrane gradient and potential. The aim of the study was to determinate the influence of intravenous 25% magnesium sulphate infusion on arterial pressure and sodium leukocyte membrane efflux in subjects suffering from primary arterial hypertension. The measurements were performed in 43 hypertensive patients. All patients have been divided into two groups: first-23 subjects with mild hypertension (5 women aged 32 to 50 years and 18 men aged 22 to 58 years), second-20 subjects with moderate hypertension (7 women aged 41 to 60 years and 13 men aged 28 to 65 years). The control group consisted of 31 healthy volunteers (9 women aged 37 to 55 years and 22 men aged 21 to 60 years). After venous catheter has been placed in cephalic vein standard supine arterial pressure measurements and venous blood were obtained in every person. Infusion of 20 ml 25% magnesium sulphate dissolved in 500 ml 5% dextrose was administered during 60 minutes. Again measurements were obtained after the infusion all. Arterial blood pressure was also measured 6 hours after infusion. In our investigation we proved that infusion of 20.3 mmol. of magnesium in patients with primary hypertensive disease enhanced total and furosemide-dependent but not oubain-dependent sodium membrane efflux. It did not also influence neither systolic nor diastolic arterial pressure. The greatest enhancement of total and furosemide-dependent sodium membrane efflux was observed in persons who had the greatest enhancement of magnesium blood concentration.
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PMID:[Influence of magnesium on rate of sodium transport through lymphocyte membranes in patients with hypertension]. 896 40

To evaluate the functional relationship between cardiac natriuretic peptides and endothelin-1 within the human kidney, we studied the effects exerted by infusion of brain natriuretic peptide on urinary endothelin-1 excretion. We studied twice in a single-blind manner five normal volunteers who received a constant infusion of 5% dextrose (250 mL/h) or human brain natriuretic peptide-32 at a dose of 4 pmol/kg per minute. Blood samples were drawn at intervals for measurement of hematocrit and concentrations of creatinine, electrolytes, brain natriuretic peptide, and endothelin-1. Urine was collected an intervals for measurement of flow rate and concentrations of creatinine, sodium, cGMP, and endothelin-1. Blood pressure and heart rate were measured every 15 minutes. Placebo administration did not change blood pressure, heart rate, or any of the other parameters measured in plasma and urine. As expected, brain natriuretic peptide infusion caused significant increases in its own plasma levels (basal versus peak levels [mean +/- SD], 1.45 +/- 0.20 versus 50.5 +/- 6.0 pmol/L, P < .01), in urinary cGMP (0.75 +/- 0.16 versus 1.92 +/- 0.81 fmol/min, P < .05), and in urinary sodium excretion (140.0 +/- 38.7 versus 624.2 +/- 181.6 mumol/min, P < .01). In addition, it caused an increase in urinary endothelin-1 excretion (4.32 +/- 2.11 versus 19.67 +/- 9.52 fmol/min, P < .05), without modifying plasma endothelin-1, blood pressure, heart rate, creatinine clearance, and urinary flow rate. Our data indicate that brain natriuretic peptide, at plasma levels comparable to those observed in patients with heart failure, causes a significant increase in urinary but not plasma endothelin-1, thus demonstrating a functional link between cardiac natriuretic peptides and renal release of endothelin-1.
Hypertension 1997 Jan
PMID:Urinary endothelin-1 excretion is enhanced by low-dose infusion of brain natriuretic peptide in normal humans. 903 83

Ambient glucose concentrations alter type 1 angiotensin II receptor (AT1R) expression in renal tissues. The direction of change in AT1R density may depend on the specific cell type and the capacity for that cell type to use glucose as an energy substrate. Given the effects of angiotensin II (Ang II) in proximal tubule epithelia, glucose-mediated fluctuations in AT1R expression could significantly alter tubular Na(+)-H+ exchange and volume reabsorption. To determine if glucose influenced AT1R expression in cultured proximal tubule epithelial cells, SV40-immortalized rabbit proximal tubule epithelial cells (RPTEC) were exposed to 25 mmol (hi-glc) or 5 mmol glucose-containing serum-free medium (lo-glc) for seven to nine days, with or without an alternative energy substrate, pyruvate. AT1R expression, assessed by quantitative reverse-transcription polymerase chain reaction and specific 125I-Ang II binding, decreased in lo-glc medium (% reduction AT1R mRNA expression: 52 +/- 8%; N = 6; P < 0.005 vs. hi-glc; % reduction specific 125I-Ang II binding: 48 +/- 12%; N = 12; P < 0.03 vs. hi-glc). AT1R mRNA expression and specific 125I-Ang II binding recovered to hi-glc levels following the addition of pyruvate [60 mmol] to lo-glc cells. To ascertain if a growth factor that increases glucose uptake in vivo also altered AT1R expression, RPTEC were cultured in hi-glc medium with or without exogenous insulin [100 nM]. Insulin addition increased AT1R mRNA expression and specific 125I-Ang II binding in a concentration-dependent manner. However, insulin (100 nM) addition to lo-glc cells did not significantly increase specific 125I-Ang II binding. These results suggest that AT1R expression in SV40-immortalized rabbit proximal tubule cells is significantly affected by the availability of energy substrate. Ultimately, changes in proximal tubule AT1R expression, mediated by elevated glucose concentrations and insulin, could contribute to sodium-dependent hypertension in the setting of hyperinsulinemia and hyperglycemia.
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PMID:Effect of glucose, pyruvate, and insulin on type 1 angiotensin II receptor expression in SV40-immortalized rabbit proximal tubule epithelial cells. 921 50

A rat model of hypertensive cardiomyopathy was studied to evaluate the acute effects of cocaine on the myocardium. Using autoradiographic microimaging techniques, myocardial perfusion (201Tl) and energy substrate utilization (glucose: [14C]2-fluoro-2-deoxy-D-glucose-[14C]2DG and fatty acid (15-[p-iodophenyl])-3-R,S-methyl pentadecanoic acid-[131I]BMIPP) were studied in Dahl strain salt-sensitive normotensive and hypertensive rats with and without intravenous cocaine. The right ventricle, septum, endocardium and epicardium of the left ventricle were analyzed. Increased perfusion (18%) was seen in the myocardium of the hypertensive rats as compared to the normotensive rats. There was higher [14C]2DG (254%) and lower fatty acid (13.2%) uptake in the hypertensive rats, indicative of a shift from aerobic to anaerobic substrate utilization. In cocaine-treated normotensive rats, a generalized decrease in myocardial perfusion (30%) and increased glucose metabolism (89%) was seen. In cocaine-treated hypertensive rats, the increased myocardial perfusion (16%) was heterogeneous and was more pronounced in septum and epicardium. The endocardium and epicardium in the hypertensive rats showed an overall increase (23%) in glucose utilization after cocaine which was not as dramatic as was seen in the normotensive heart and a slight increase in fatty acid utilization. These results are consistent with prior observations that under pressure overload the myocardium responds non-uniformly. It may well be that the hypertensive cardiomyopathic heart is unable to respond to the challenge of cocaine by further increasing glucose utilization. These data obtained in an animal model of hypertension seem to indicate that hypertension may increase the risk of cardiac complications related to cocaine.
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PMID:Quantitative autoradiographic measurement of cocaine-induced regional myocardial metabolic changes in hypertensive rats. 923 89

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