UMLS:C0028754 - FACTA Search

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Query: UMLS:C0028754 (obesity)
124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Late diabetic effects are the sequelae of for a long time super elevated blood sugar levels. The diabetic nephropathy is the cause of the secondary arterial hypertension. The investigation seeks for the connections between the diabetes mellitus and the essential, that is primary hypertension. The two diseases frequently appear and clearly increase in the second half of life. Moreover, they are above average frequently associated with each other. Among brothers and sisters of diabetic hypertensives in comparison to normal cohorts clearly increased high blood pressure prevalences were found. The insulin resistance which could be proved in a great number of hypertensive and which has been known since more than two decades might be the connecting link between hypertension and diabetes mellitus. Like the obesity the essential hypertension can be associated with all degrees of an insulin hyposensitiveness. The sodium-retaining effect of the insulin might explain the increased sodium content of the body in hypertensives. The differential diagnostics of the essential hypertension should therefore seek for conditions of an insulin resistance. The type II diabetic lacks a release of bradykinin during muscle work. Thus the glucose uptake into the cell is unfavourable influenced and demands an increased insulin excretion. This genetically (?) fixed defect is found also in essential hypertensives. It could be the connecting link between the two diseases. ACE-inhibitors have via a kininase II inhibition an effect also on the bradykinin decomposition and can favourable influence the glucose uptake into the muscle. An improved insulin effect among the ACE-inhibitors was described. Therefore, they should be preferred in the treatment of hypertensive diabetics.
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PMID:[Diabetes mellitus and arterial hypertension. In search of the connecting link]. 177 26

This study tested whether the angiotensin-converting enzyme (ACE) inhibitor captopril can modify the glucose transport system in insulin-resistant skeletal muscle. Obese Zucker (fa/fa) rats (approximately 300 g)--a model of insulin resistance--were administered by gavage either a single dose (50 mg/kg body weight) or repeated doses (50 mg/kg/d for 14 consecutive days) of captopril. Corresponding groups of age-matched, vehicle-treated lean (Fa/-) littermates (approximately 170 g) were also studied. Glucose transport activity in the epitrochlearis muscle was assessed by in vitro 2-deoxyglucose (2-DG) uptake. The increase in 2-DG uptake due to insulin (2 mU/mL) in muscles from vehicle-treated obese rats was less than 50% (P < .05) of the increase observed in muscles from lean rats. Short-term captopril treatment improved insulin-stimulable 2-DG uptake in muscles from obese rats by 46% (P < .05), and this enhanced insulin action due to captopril was completely abolished by pretreatment with the bradykinin antagonist HOE 140 (100 micrograms/kg). Long-term treatment with captopril produced a 60% improvement in insulin-stimulated 2-DG uptake (P < .05). Contraction-stimulated 2-DG uptake was significantly impaired (-31%, P < .05) in the obese rat, but was not altered by long-term captopril treatment. These findings indicate that both short- and long-term treatments with captopril significantly improve insulin-stimulated glucose transport activity in skeletal muscle of the obese Zucker rat, and that this improvement involves bradykinin metabolism. These data therefore support the hypothesis that captopril-induced improvements in glucose disposal result in part from an enhancement of the skeletal muscle glucose transport system.
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PMID:Effects of captopril on glucose transport activity in skeletal muscle of obese Zucker rats. 786 26

Insulin resistance of skeletal muscle glucose disposal underlies the pathogenesis of NIDDM and is associated with hypertension, obesity, and dyslipidemia. Angiotensin-converting enzyme (ACE) inhibitors are used primarily in antihypertensive therapy but also are known to improve whole-body insulin-mediated glucose disposal. However, the exact site of action is not well characterized. We have used the isolated epitrochlearis muscle from a well-established animal model of skeletal muscle insulin resistance, the obese Zucker rat, to test the effect of oral administration of ACE inhibitors on insulin-sensitive muscle glucose transport activity. Both acute and chronic administration of a sulfhydryl-containing ACE inhibitor (captopril) or a non-sulfhydryl-containing ACE inhibitor (tran-dolapril) significantly enhanced in vitro insulin-mediated muscle glucose transport activity. In addition, the acute effect of oral captopril administration was completely abolished by pretreatment of the animal with a bradykinin B2 receptor antagonist (HOE 140). These findings indicate that ACE inhibitors may improve whole-body glucose metabolism by acting on the insulin-sensitive skeletal muscle glucose transport system. In addition, bradykinin or one of its metabolites may be involved in the action of the ACE inhibitor captopril on insulin-resistant muscle.
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PMID:Glucose transport activity in insulin-resistant rat muscle. Effects of angiotensin-converting enzyme inhibitors and bradykinin antagonism. 852 93

We tested the hypothesis that endothelium-dependent vasodilatation is a determinant of insulin resistance of skeletal muscle glucose uptake in human obesity. Eight obese (age 26+/-1 yr, body mass index 37+/-1 kg/m2) and seven nonobese males (25+/-2 yr, 23+/-1 kg/m2) received an infusion of bradykinin into the femoral artery of one leg under intravenously maintained normoglycemic hyperinsulinemic conditions. Blood flow was measured simultaneously in the bradykinin and insulin- and the insulin-infused leg before and during hyperinsulinemia using [15O]-labeled water ([15O]H2O) and positron emission tomography (PET). Glucose uptake was quantitated immediately thereafter in both legs using [18F]- fluoro-deoxy-glucose ([18F]FDG) and PET. Whole body insulin-stimulated glucose uptake was lower in the obese (507+/-47 mumol/m2 . min) than the nonobese (1205+/-97 micromol/m2 . min, P < 0.001) subjects. Muscle glucose uptake in the insulin-infused leg was 66% lower in the obese (19+/-4 micromol/kg muscle . min) than in the nonobese (56+/-9 micromol/kg muscle . min, P < 0.005) subjects. Bradykinin increased blood flow during hyperinsulinemia in the obese subjects by 75% from 16+/-1 to 28+/-4 ml/kg muscle . min (P < 0.05), and in the normal subjects by 65% from 23+/-3 to 38+/-9 ml/kg muscle . min (P < 0.05). However, this flow increase required twice as much bradykinin in the obese (51+/-3 microg over 100 min) than in the normal (25+/-1 mug, P < 0.001) subjects. In the obese subjects, blood flow in the bradykinin and insulin-infused leg (28+/-4 ml/kg muscle . min) was comparable to that in the insulin-infused leg in the normal subjects during hyperinsulinemia (24+/-5 ml/kg muscle . min). Despite this, insulin-stimulated glucose uptake remained unchanged in the bradykinin and insulin-infused leg (18+/-4 mumol/kg . min) compared with the insulin-infused leg (19+/-4 micromol/kg muscle . min) in the obese subjects. Insulin-stimulated glucose uptake also was unaffected by bradykinin in the normal subjects (58+/-10 vs. 56+/-9 micromol/kg . min, bradykinin and insulin versus insulin leg). These data demonstrate that obesity is characterized by two distinct defects in skeletal muscle: insulin resistance of cellular glucose extraction and impaired endothelium-dependent vasodilatation. Since a 75% increase in blood flow does not alter glucose uptake, insulin resistance in obesity cannot be overcome by normalizing muscle blood flow.
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PMID:Insulin resistance of glucose uptake in skeletal muscle cannot be ameliorated by enhancing endothelium-dependent blood flow in obesity. 948 87

The JCR:LA-cp rat is a unique strain that, if homozygous for the autosomal recessive cp gene, is obese and exhibits the metabolic syndrome of insulin resistance, hyperinsulinemia, and hypertriglyceridemia. Obese male rats spontaneously develop advanced atherosclerosis and ischemic myocardial lesions. The angiotensin-converting enzyme inhibitor, captopril, was administered to obese rats at 30 mg/kg body weight from 6 to 39 weeks of age. There were no significant changes in food consumption or body weights of the treated animals. Insulin sensitivity was not improved. Plasma insulin levels were unaltered, but the volume density of the islets of Langerhans was halved, reflecting both reduced hyperplasia and a more normal islet structure. Triglyceride concentrations were not reduced, but unesterified cholesterol and cholesteryl esters decreased by 50% and 34%, respectively (p < 0.01). The impaired nitric oxide-mediated vascular relaxation of the obese rats was not improved, and the relaxant sensitivity to acetylcholine as indicated by the median effective concentration (EC50) was reduced. In vitro, captopril significantly reduced the basal tension of aortic rings from untreated rats, antagonized the contractile effects of norepinephrine, and induced complete relaxation of the contraction in response to 10(-7) M norepinephrine. The severity of spontaneous, raised atherosclerotic lesions of the aortic arch at age 39 weeks was not significantly decreased by captopril treatment. In contrast, the frequency of ischemic myocardial lesions was reduced by 78% (p < 0.01). The protective effects of captopril on the heart and pancreas in this animal model of type II diabetes and atherosclerosis are probably the result of its bradykinin-enhancing effects.
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PMID:Inhibition of myocardial lesions in the JCR:LA-corpulent rat by captopril. 964 85

Acute administration of the angiotensin-converting enzyme (ACE) inhibitor captopril enhances insulin-stimulated glucose transport activity in skeletal muscle of the insulin-resistant obese Zucker rat. The present study was designed to assess whether this effect is mediated by an increase in the nonapeptide bradykinin (BK), by a decrease in action of ANG II, or both. Obese Zucker rats (8-9 wk old) were treated for 2 h with either captopril (50 mg/kg orally), bradykinin (200 micrograms/kg ip), or the ANG II receptor (AT(1) subtype) antagonist eprosartan (20 mg/kg orally). Captopril treatment enhanced in vitro insulin-stimulated (2 mU/ml) 2-deoxyglucose uptake in the epitrochlearis muscle by 22% (251 +/- 7 vs. 205 +/- 9 pmol. mg(-1). 20 min(-1); P < 0.05), whereas BK treatment enhanced this variable by 18% (249 +/- 15 vs. 215 +/- 7 pmol. mg(-1). 20 min(-1); P < 0.05). Eprosartan did not significantly modify insulin action. The BK-mediated increase in insulin action was completely abolished by pretreatment with either the specific BK-B(2) receptor antagonist HOE 140 (200 micrograms/kg ip) or the nitric oxide synthase inhibitor N(omega)-nitro-L-arginine methyl ester (50 mg/kg ip). Collectively, these results indicate that the modulation of insulin action by BK likely underlies the metabolic effects of ACE inhibitors in the insulin-resistant obese Zucker rat. Moreover, this modulation of insulin action by BK is likely mediated through B(2) receptors and by an increase in nitric oxide production and/or action in skeletal muscle tissue.
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PMID:ACE inhibition and glucose transport in insulinresistant muscle: roles of bradykinin and nitric oxide. 1040 90

A substantial body of work has been recently directed toward elucidation of the relationships between body weight, blood pressure, and renal and vascular function. In this review only a few of the myriad studies are highlighted in order to survey areas of current investigation and controversy. Epidemiologic studies have confirmed the blood pressure-body weight relationship but suggest a link to insulin resistance. The majority of investigative work in the mechanism and abnormalities in obesity and their link to blood pressure have focused on the kidney as the primary organ of interest. In addition to alterations in renal blood flow and function, the sympathetic nervous system has also been implicated. The role of the major adrenal steroid dehydroepiandrosterone (DHEA) has been examined, as have the roles of bradykinin and leptin, the exiting new polypeptide thought to play a role in obesity.
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PMID:Obesity, blood pressure, and renal sodium handling. 1098 Oct 57

The dynamic of natural antibodies against angiotensin II, bradykinin and vasopressin in blood serum was studied in 75 patients with hypertension and obesity. Universal normalizing effect of the diet consists in decrease of levels of natural antibodies was found.
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PMID:[Effects of anti-atherosclerotic low-sodium diet on dynamics of natural antibodies to angiotensin II, bradykinin and vasopressin in blood of patients with hypertension and obesity]. 1151 84

Endothelin-1 (ET-1) is a pleiotropic hormone produced primarily by the endothelium. Synthesis of ET-1 is stimulated by the major signals of cardiovascular stress, such as vasoactive agents (angiotensin II, norepinephrine, vasopressin, and bradykinin), cytokines (e.g., tumor necrosis factor alpha and transforming growth factor beta), and other factors, including thrombin and mechanical stress. ET-1 induces vasoconstriction, is proinflammatory, promotes fibrosis, and has mitogenic potential, important factors in the regulation of vascular tone, arterial remodeling, and vascular injury. These effects are mediated via two receptor types, ETA and ETB. The role ET-1 plays in normal cardiovascular homeostasis and in mild essential hypertension in humans is unclear. However, certain groups of essential hypertensive patients may have ET-1-dependent hypertension, including blacks (subjects of African descent), salt-sensitive hypertensives, patients with low renin hypertension, and those with obesity and insulin resistance. ET-1 has also been implicated in severe hypertension, heart failure, atherosclerosis, and pulmonary hypertension. In all of these conditions, plasma immunoreactive ET levels are elevated and tissue ET-1 expression is increased. Accordingly, it is becoming increasingly apparent that ET-1 plays an important role in cardiovascular disease and in some forms of hypertension in humans. Data from clinical trials using combined ETA-ETB receptor blockers have already demonstrated significant blood-pressure-lowering effects. Thus, targeting the endothelin system may have important therapeutic potential in the treatment of hypertension, particularly by contributing to the prevention of target organ damage and the management of cardiovascular disease.
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PMID:Role of endothelin in human hypertension. 1283 65

Endothelial release of tissue-type plasminogen activator (t-PA) regulates fibrinolysis and is considered to be a primary endogenous defense mechanism against thrombosis. Adiposity is associated with an increased risk of atherothrombotic events. We determined the influence of overweight and obesity on the capacity of the vascular endothelium to release t-PA and the effects of regular aerobic exercise on endothelial t-PA release in previously sedentary overweight and obese adults. First, we studied 66 sedentary adults: 28 normal-weight (BMI < 25 kg/m2); 22 overweight (BMI > or = 25 and < 30 kg/m2); and 16 obese (BMI > or = 30 kg/m2). Net endothelial t-PA release was determined in vivo in response to intrabrachial infusions of bradykinin (BK) and sodium nitroprusside. Second, we studied 17 overweight and obese adults who completed a 3-mo aerobic exercise intervention. Net release of t-PA in response to BK was approximately 45% lower (P < 0.01) in overweight (from 0.1 +/- 0.4 to 41.7 +/- 4.9 ng x 100 ml tissue(-1) x min(-1)) and obese (-0.1 +/- 0.6 to 47.7 +/- 5.2 ng x 100 ml tissue(-1) x min(-1)) compared with normal-weight (0.1 +/- 0.8 to 77.5 +/- 6.7 ng x 100 ml tissue(-1) x min(-1)) adults. There was no difference in t-PA release between the overweight and obese groups. Exercise training significantly increased t-PA release capacity in overweight and obese adults (from -0.3 +/- 0.5 to 37.1 +/- 4.9 ng x 100 ml tissue(-1) x min(-1) before training vs. 1.0 +/- 0.9 to 65.4 +/- 6.3 ng x 100 ml tissue(-1) x min(-1) after training) to levels comparable with those of their normal-weight peers. These results indicate that overweight and obesity are associated with profound endothelial fibrinolytic dysfunction. Importantly, however, regular aerobic exercise can increase the capacity of the endothelium to release t-PA in this at-risk population.
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PMID:Endothelial t-PA release is impaired in overweight and obese adults but can be improved with regular aerobic exercise. 1598 56

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