Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

1. Insulin resistance has been highlighted as a common causal factor for hypertension, hyperlipidaemia, diabetes mellitus and obesity, all of which are recognized to occur simultaneously, and a distinct clinical entity is defined as 'multiple risk factor syndrome'. 2. Recently, a new class of antidiabetic agents, thiazolidinediones (TZD) has been developed and has been shown to improve insulin resistance by binding and activating a nuclear receptor, peroxisome proliferator-activated receptor (PPAR) gamma. 3. cDNA of rat PPAR gamma 1 and gamma 2 were cloned and gene regulation of PPAR gamma in rat mature adipocytes was examined. Hydrogen peroxide, an oxygen radical, which is recognized to be the common intracellular signal for multiple risk factors, potently down-regulated PPAR gamma mRNA expression in rat mature adipocytes. 4. Tumour necrosis factor (TNF)-alpha, which is considered to play a role in obesity-induced non-insulin-dependent diabetes mellitus and to augment oxidative stress, also suppressed PPAR gamma expression. 5. Thiazolidinediones dose-dependently recovered TNF-alpha-induced down-regulation of PPAR gamma mRNA expression. 6. The modulation of PPAR gamma expression by TZD can be one mechanism for the improvement of insulin resistance by TZD. 7. Vascular tone and remodelling are controlled by several vasoactive autocrine/paracrine factors produced by endothelial cells in response to several vascular injury stimuli, including hypertension. The PPAR gamma gene transcript was detected in cultured endothelial cells. 8. The administration of TZD stimulated the endothelial secretion of type-C natriuretic peptide, which is one of the natriuretic peptide family and is demonstrated by us to act as a novel endothelium-derived relaxing peptide. 9. Concomitantly, TZD significantly suppressed the secretion of endothelin, a potent endothelium-derived vasoconstricting peptide. 10. Thiazolidinediones can affect vascular tone and growth by modulating the production of endothelium-derived vasoactive substances to influence occurrence and progression of hypertension and atherosclerosis.
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PMID:Hypertension and insulin resistance: role of peroxisome proliferator-activated receptor gamma. 1040 88

Longitudinal and cross-sectional studies suggest that a large number of obese patients have a high prevalence of hypertension. This association causes the following changes: insulin and leptin resistance with a suppressed biologic activity of natriuretic peptide, which contributes to sodium retention with concomitant expanded cardiopulmonary volume and increased cardiac output. The cellular metabolism of cations may be altered in obesity and may lead to changes in vascular responsiveness and increased vascular resistance. These changes lead to structural adaptations in the heart characterized by concentric-eccentric left ventricular hypertrophy. The hypertrophic condition provides the basis for the development of congestive heart failure and cardiac arrhythmias that may explain the higher rates of cardiac sudden death in those patients. In the kidneys, obesity hypertension may initiate a derangement of renal function. The increased deposit of interstitial cells and of extracellular matrix between the tubules induces higher interstitial hydrostatic pressure and tubular sodium reabsorption. The consequent increase in renal flow and glomerular filtration enhances albuminuria excretion and the susceptibility to the development of renal damage. In summary, the hemodynamic and structural adaptations related to obesity hypertension is the cause of greater risk for adverse cardiovascular and renal events.
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PMID:Obesity-hypertension: the effects on cardiovascular and renal systems. 1113 Jul 76

Assays for natriuretic peptides have received considerable attention as potential screening tests for congestive heart failure and left ventricular dysfunction. However, information regarding the impact of age, sex, and other physiologic characteristics on natriuretic peptide levels is limited. We examined a healthy reference sample of 911 subjects (mean age 55 years, 62% women) from the Framingham Heart Study who were free of hypertension, valvular disease, diabetes, atrial fibrillation, obesity, coronary heart disease, congestive heart failure, and renal failure, and who had normal left ventricular systolic function. Plasma brain natriuretic peptide and N-terminal atrial natriuretic peptide levels were measured, and multivariable regression used to assess correlates of natriuretic peptide levels. The strongest predictors of higher natriuretic peptide levels were older age and female sex. Other multivariable predictors included lower diastolic blood pressure (higher pulse pressure), lower body mass index, and higher left atrial size. Reference limits were then formulated based on the empirical distribution of natriuretic peptide levels by gender both across all ages and partitioned by age. Age-pooled reference limits compared with age-specific limits classified a higher proportion of healthy elderly subjects (17% vs 2.5%), but a lower proportion of healthy young subjects (1% vs 2.5%) as "abnormal." We conclude that interpretation of natriuretic peptide levels should take into consideration gender and possibly age. The reference limits derived from this large, healthy community-based sample will aid in the identification of elevated natriuretic peptide levels in clinical practice.
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PMID:Impact of age and sex on plasma natriuretic peptide levels in healthy adults. 1212 13

Endurance training increases natriuretic peptide synthesis in the hypertrophied myocardium of spontaneously hypertensive rats. We examined the effects of 22-week-long treadmill exercise on plasma and tissue atrial natriuretic peptide in Zucker rats, a model of genetic obesity and moderate hypertension without clear cardiac hypertrophy. The blood pressures of the animals were measured by the tail-cuff method, and plasma and tissue samples for the peptide determinations were taken at the end of the study. The training increased heart weight to body weight ratio, while atrial natriuretic peptide contents in the right and left atrium, ventricular tissue, and plasma did not change. The exercise prevented the elevation of blood pressure, which was observed in non-exercised obese Zucker rats, and also reduced blood pressure in the lean rats. In conclusion, these results suggest that in the absence of preceding myocardial hypertrophy, the long-term exercise-induced workload is not deleterious to the heart in experimental obesity, since no changes in plasma and tissue atrial natriuretic peptide were detected.
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PMID:Long-term physical exercise and atrial natriuretic peptide in obese Zucker rats. 1219 55

In light of the increasing prevalence, morbidity, and mortality of heart failure, effective preventative strategies are urgently needed. Risk factors for heart failure include coronary artery disease and other atherosclerotic vascular diseases, hypertension, diabetes, renal insufficiency, obesity, and family history of cardiomyopathy. Essential strategies for prevention of heart failure are modification of risk factors for heart failure development; comprehensive hypertension, atherosclerosis, and diabetes treatment; and detection and treatment of asymptomatic left ventricular dysfunction. The B-type natriuretic peptide assay may aid in identifying asymptomatic left ventricular dysfunction in patients with risk factors for heart failure. In patients with hypertension, atherosclerosis, and/or diabetes, angiotensin-converting enzyme inhibitor, beta-blocker, aspirin, and statin therapy can prevent progression to symptomatic heart failure. Avoidance of calcium channel-blockers as first-line antihypertensive therapy can also reduce the risk of heart failure. There remain substantial opportunities to improve implementation of therapies proven to prevent heart failure in the large number of patients at risk.
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PMID:Prevention of heart failure: effective strategies to combat the growing epidemic. 1268 99

Obesity may confer cardiac dysfunction due to lipid accumulation in cardiomyocytes. To test this idea, we examined whether obese ob/ob mice display heart lipid accumulation and cardiac dysfunction. Ob/ob mouse hearts had increased expression of genes mediating extracellular generation, transport across the myocyte cell membrane, intracellular transport, mitochondrial uptake, and beta-oxidation of fatty acids compared with ob/+ mice. Accordingly, ob/ob mouse hearts contained more triglyceride (6.8 +/- 0.4 vs. 2.3 +/- 0.4 microg/mg; P < 0.0005) than ob/+ mouse hearts. Histological examinations showed marked accumulation of neutral lipid droplets within cardiac myocytes but not increased deposition of collagen between myocytes in ob/ob compared with ob/+ mouse hearts. On echocardiography, the ratio of E to A transmitral flow velocities (an indicator of diastolic function) was 1.8 +/- 0.1 in ob/ob mice and 2.5 +/- 0.1 in ob/+ mice (P = 0.0001). In contrast, the indexes of systolic function and heart brain natriuretic peptide mRNA expression were only marginally affected and unaffected, respectively, in ob/ob compared with ob/+ mice. The results suggest that ob/ob mouse hearts have increased expression of cardiac gene products that stimulate myocyte fatty acid uptake and triglyceride storage and accumulate neutral lipids within the cardiac myocytes. The results also suggest that the cardiac lipid accumulation is paralleled by cardiac diastolic dysfunction in ob/ob mice.
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PMID:Cardiac lipid accumulation associated with diastolic dysfunction in obese mice. 1286 29

The evolving paradigm of heart failure has now been expanded to include the favorable neurohormonal, structural and hemodynamic profile of B-type natriuretic peptide [BNP]. As a marker of left ventricular dysfunction, BNP is a practical tool that facilitates diagnosis, contributes to prognostic evaluations and tracks disease severity. BNP elevations vary according to gender, disease states and perhaps obesity but in general elevated levels are consistent not only with left ventricular stress but likely represent the best surrogate for ongoing left ventricular remodeling. The full utility of BNP surveys has not yet been realized but emerging areas of use include clinical assessment by physician extenders, post-MI assessment, and a target of tailored therapy for heart failure. New biomarkers for heart failure similar to BNP are on the horizon but their clinical niche has yet to be determined.
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PMID:Practical considerations for BNP use. 1457 60

Lipid accumulation is associated with cardiac dysfunction in diabetes and obesity. Transgenic mice expressing non-transferable lipoprotein lipase (LpL) with a glycosylated phosphatidyl-inositol (GPI) anchor in cardiomyocytes have dilated cardiomyopathy. However, the mechanisms responsible for lipid accumulation and cardiomyopathy are not clear. Hearts from 3-month-old mice expressing GPI-anchored human LpL (hLpLGPI) mice had increased fatty acid oxidation and heart failure genes and decreased glucose transporter genes. 6-month-old mice had increased mRNA expression and activation of the apoptosis marker caspase-3. Moreover, hLpLGPI hearts had significant cytochrome c release from mitochondria to cytosol. Low density lipoprotein uptake was greater in hLpLGPI hearts, and this was associated with more intracellular apolipoprotein B (apoB). To test whether lipid accumulation in the hLpLGPI heart is reduced by cardiac expression of apoB, hLpLGPI mice were bred with transgenic human apoB (HuB)-expressing mice. Hearts of HuB/hLpLGPI mice had less triglyceride (38%) and free fatty acids (19%), secreted more apoB, and expressed less atrial natriuretic factor (ANF) and brain natriuretic peptide (BNP) and more glucose transporter 4 (GLUT4). The increased mortality of the mice was abrogated by the transgenic expression of apoB. Therefore, we hypothesize that cardiac apoB expression improves cardiomyopathy by increasing lipid resecretion from the heart.
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PMID:Apolipoprotein B production reduces lipotoxic cardiomyopathy: studies in heart-specific lipoprotein lipase transgenic mouse. 1463 11

Moxonidine, an imidazoline receptor agonist that acts centrally to inhibit sympathetic activity, has been shown to reduce effectively blood pressure, fasting insulin levels, and free fatty acids. In this study, we investigated the long-term effects of moxonidine treatment on cardiac natriuretic peptides (ANP and BNP) in Spontaneously Hypertensive Obese Rats (SHROBs), a rat model that resembles human Syndrome X. SHROBs expressing spontaneous hypertension, insulin resistance, and genetic obesity (weight 590 +/- 20 g, at 30 weeks) received moxonidine in chow at 4 mg/kg/day for 15 days. Moxonidine significantly reduced not only systolic blood pressure (187 +/- 6 versus 156 +/- 5 mm Hg, P < 0.05) but also plasma ANP (1595 +/- 371 versus 793 +/- 131 pg/mL, P < 0.05) and BNP (22 +/- 3 versus 14 +/- 1 pg/mL, P < 0.04), without influencing cardiac content of either peptide. Semi-quantitative PCR revealed that atrial ANPmRNA/GAPDHmRNA decreased to 39% 6 10% of pair-fed controls, P < 0.03. In left ventricles, moxonidine also decreased ANP mRNA to 69% +/- 7% and BNP mRNA to 74% +/- 6% of control, P < 0.02, but right ventricular ANP and BNP mRNA were not affected. These findings indicate that chronic inhibition of sympathetic activity with moxonidine in SHROB is associated with decreased ventricular natriuretic peptide transcription, consistent with the cardioprotective effects of moxonidine given the role of ANP and BNP as markers of cadiac disease. Moxonidine also improves the metabolic profile in these rats, thus it may be considered the drug of choice in treatment of metabolic syndrome X.
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PMID:Cardiac effects of moxonidine in spontaneously hypertensive obese rats. 1502 94

Diabetes substantially increases the risk of heart failure both in men and women, being included in the Stage A classification of heart failure by the American Societies of Cardiology. The main etiological factors contributing to heart failure in diabetes are coronary artery disease, systemic hypertension and diabetic cardiomyopathy, the latter being invoked in case of heart failure where the first two factors are missing. Renal insufficiency and obesity may also play a role. The diagnosis will follow the same steps as in non-diabetic subjects: careful and periodic assessment for signs and symptoms of heart failure in all diabetic patients, echocardiography to assess the systolic and diastolic function of the left ventricle, and B-type natriuretic peptide level (as a marker of left ventricular dysfunction). The therapeutic approach will include non-pharmacological measures and pharmacological treatment. Patients with diabetes and heart failure benefit of the same drugs as non-diabetic subjects, including beta-blockers, which should not be avoided in patients with diabetes. The antihyperglycemic agents that should not be used in patients with heart failure are biguanides and thiazolidindiones (pioglitazone can be used in NYHA I and II classes). Approaches that were proven to reduce the risk of heart failure in diabetes are blood pressure and lipid control, treatment with ACE inhibitors in patients with diabetes and other cardiovascular risk factors and improvement of the glycemic control.
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PMID:Heart failure and diabetes. 1552 17


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