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)

Whereas diet-induced obese rabbits have been used to study various aspects of obesity, alterations of lipid metabolism in this model have not been clarified. This study aimed to compare plasma nonesterified fatty acid (NEFA) and triglyceride (TG) kinetics in obese and lean rabbits by means of U-(13)C16-palmitate infusion. Young female rabbits consumed either a high-fat diet (49% energy from fat) ad libitum to develop obesity (n = 6) or a normal diet (7.9% energy from fat) as lean control (n = 5). After 10 wk of feeding, the body weight of obese rabbits (5.33 +/- 0.05 kg) was greater (P < 0.001) than that of lean rabbits (3.89 +/- 0.07 kg). The obese rabbits had higher concentrations of plasma NEFA and TG and a greater rate of fatty acid (FA) turnover. Whereas the fractional secretion rates of hepatic TG did not differ, 100% of hepatic secretory TG was synthesized from plasma NEFA in the lean rabbits compared to 59% in the obese rabbits (P < 0.001). In the lean rabbits, hepatic lipase-mediated hydrolysis of lipoprotein TG did not contribute to the FA pool for synthesis of secretory TG, consistent with the naturally occurring deficit in hepatic lipase in this species. We conclude that lipid metabolism in diet-induced obese rabbits is similar to that in obese humans. The deficiency in hepatic lipase in rabbits simplifies the quantitation of hepatic lipid kinetics.
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PMID:Lipid metabolism in diet-induced obese rabbits is similar to that of obese humans. 1828 59

Obesity is a complex disease, which in many cases appears as a polygenic condition affected by environmental factors (mainly unbalanced dietary patterns and physical inactivity). In this context, the weight loss response to dietary interventions varies widely and predictive factors of successful slimming including those concerned with the individual's genetic make-up are poorly understood. Indeed, a number of genes involved in the regulation of energy expenditure, appetite, lipid metabolism and adipogenesis have been reported to affect the risk of treatment failure in some obese subjects. Some candidate genes for the prognosis of weight loss response related to energy expenditure are those codifying for the adrenergic receptors (ADBRs) and uncoupling proteins (UCPs), while genes related to appetite potentially affected by energy restriction are leptin (LEP), leptin receptor (LEPR), melanocortin pathways genes (MC3R, POMC) and the serotonin receptor. Furthermore, adipogenesis related genes such as peroxisome proliferator-activated receptor (PPAR gamma 2) and genes related to cytokines such as interleukin-6 (IL-6) and lipid metabolism including hepatic lipase (LIPC), perilipin (PLIN) and lipoprotein lipase (LPL) have also been associated to the weight lowering outcome induced by hypocaloric diets. Therefore, this review shows preliminary evidence from human studies that support the existence of a genetic component in the fat reduction process associated to a negative energy balance.
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PMID:Genotype-dependent response to energy-restricted diets in obese subjects: towards personalized nutrition. 1829 17

Evidence has been provided that increased levels of non esterified fatty acids (NEFA) in the portal flow would produce insulin resistance and would also stimulate the hepatic protein synthesis, thereby explaining the increased plasma levels not only of apolipoprotein B, but also of other liver-derived enzymes and proteins occurring in overweight and hypertriglyceridemic patients. The high plasma concentration of triglyceride-rich lipoprotein would facilitate the transfer of cholesteryl esters from HDL and LDL to VLDL in exchange for triglycerides, a process mediated by liver-derived cholesteryl ester transfer protein (CETP). The triglyceride thereby acquired in HDL and LDL would then be hydrolyzed by hepatic lipase. The resulting association of increased triglycerides, low HDL cholesterol and small dense LDL is considered to be an atherogenic profile. The prothrombotic state, another feature of the metabolic syndrome, may also be explained by an enhanced hepatic synthesis of clotting factors and of the inhibitors of fibrinolysis. It was recently shown that adipocyte synthesized adiponectin reduces the release of fatty acids from the adipose tissue and would also enhance their uptake and oxidation in the muscle, thereby limiting their uptake in the liver. Decreased adiponectin production in obesity would therefore promote the development of insulin resistance, of atherogenic dyslipidemia and of the prothrombotic state. Because adiponectin also exerts an antiinflammatory activity by antagonizing TNFalpha, hypoadiponectinemia may be involved in atherogenesis and in the progression of hepatic steatosis to steatohepatitis.
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PMID:Pathogenic role of abnormal fatty acids and adipokines in the portal flow. Relevance for metabolic syndrome, hepatic steatosis and steatohepatitis. 1833 68

Severe obesity is increasingly common in the United States. Very obese persons are at increased risk for the metabolic consequences of obesity. A common multidimensional risk condition associated with obesity is the metabolic syndrome. It is accompanied by increased risk for cardiovascular disease and type 2 diabetes. Clinical manifestations of the metabolic syndrome can vary among obese individuals depending on ethnicity and gender. This study was carried out to determine the pattern of metabolic risk factors in very obese women who were considered candidates for bariatric surgery. Twenty-eight women of this type were compared to 28 nonobese women. Among the former, 11 had categorical hyperglycemia (type 2 diabetes), and 26 had metabolic syndrome by current criteria. Both those with and without diabetes had higher triglycerides and lower high-density lipoprotein (HDL) cholesterol levels than nonobese, but their levels were not categorically abnormal. These changes may have been related to observed lower postheparin lipoprotein lipase activities and higher hepatic lipase activities. In spite of lipid changes, apolipoprotein B levels were only marginally higher in very obese women. In contrast to small changes in lipoprotein metabolism, the obese women were severely insulin resistant, as indicated by hyperglycemia and elevated insulin levels. In addition, they had very high C-reactive protein levels. Thus, the metabolic syndrome, which appears to be typical of very obese women, is characterized by insulin resistance, glucose intolerance and a proinflammatory state. Atherogenic dyslipidemia as a metabolic risk factor in contrast is relatively mild. This pattern is more likely to lead to type 2 diabetes prior to development of clinically evident cardiovascular disease.
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PMID:Metabolic syndrome phenotype in very obese women. 1837 Aug 9

Studies of recurrent coronary events in obese postinfarction patients show mixed results despite potential importance of obesity-related pathophysiologic processes and associated markers in establishing and predicting risk. The study aim was to determine specific markers of recurrent risk in obese postinfarction patients. Nondiabetic patients of the Thrombogenic Factors and Recurrent Coronary Events (THROMBO) postinfarction study were classified according to BMI as normal weight (<25 kg/m(2)), overweight (25.0-29.9 kg/m(2)), and obese (> or = 30 kg/m(2)). Cox multivariable regression with adjustment for significant clinical covariates was performed in each group monitoring outcome (cardiac death, myocardial infarction (MI), or unstable angina with 26 months follow-up) as a function of 17 thrombogenic, inflammatory, and metabolic blood markers and 17 cardiovascular disease-associated genetic polymorphisms. Results revealed no statistically significant genetic or blood marker variables in normal or overweight patients. For obese postinfarction patients, elevated lipoprotein(a) (Lp(a))was found to be a highly significant risk marker with hazard ratio and 95% confidence interval of 3.94 (2.11-7.35), P = 0.000017 (upper tertile vs. lower two tertiles). Additionally, elevated Lp(a) was found to interact with the -75G>A polymorphism of the apolipoprotein A-I gene and the -250G>A polymorphism of the hepatic lipase gene in establishing risk. We conclude that interactions of elevated Lp(a) with polymorphisms of the apolipoprotein A-I and hepatic lipase genes, primarily reflective of altered lipoprotein metabolism, play an important role in the establishment of recurrent coronary event risk in obese, nondiabetic postinfarction patients. These findings suggest close monitoring and consideration of weight reduction for obese postinfarction patients with elevated Lp(a) levels.
Obesity (Silver Spring) 2008 Dec
PMID:Lp(a) and risk of recurrent cardiac events in obese postinfarction patients. 1892 46

The postprandial hypertriglyceridaemia (PHT) rabbit, developed as a new animal model of metabolic syndrome, is characterized by PHT, central obesity and glucose intolerance. For detailed investigation of lipid metabolism characteristics in PHT rabbit, the plasma levels of apolipoproteins A-I, B, C-II, C-III and E were measured. Movements of apolipoproteins B100 and B48 were investigated using sodium dodecyl sulphate-polyacrylamide gel electrophoresis to determine whether postprandially increased triglyceride is exogenous or endogenous. The level of apolipoproteins A-I, B, C-II and E were increased in PHT rabbit after feeding. Apolipoproteins B100 and B48 were detected in the plasma fraction of d < 1.006 g/mL of the PHT rabbit. The postprandial increase in apolipoprotein B in the PHT rabbit reflects a numerical increase in lipoprotein particles in the blood; the increase in apolipoproteins C-II and E suggests some disturbance in lipoprotein catabolism. Apolipoprotein B48 was detected postprandially in PHT rabbits. These results suggest that delayed catabolism of exogenous lipids caused the retention of chylomicron remnants in the blood. Results also suggest that activities of the lipolytic enzyme lipoprotein lipase and hepatic triglyceride lipase were deficient and that the hepatic uptake of exogenous lipoproteins was delayed in the PHT rabbit. Especially, for examining remnant hyperlipoproteinaemia in humans, PHT rabbit is an excellent animal model for hypertriglyceridaemia research.
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PMID:Kinetic analysis of apolipoproteins in postprandial hypertriglyceridaemia rabbits. 1901 76

There are considerable differences in the plasma lipid profile between lean and obese individuals and between men and women. Little, however, is known regarding the effects of obesity and sex on the plasma concentration of enzymes involved in intravascular lipid remodeling. Therefore, we measured the immunoreactive protein mass of lipoprotein lipase (LPL), hepatic lipase (HL), cholesterol-ester transfer protein (CETP) and lecithin-cholesterol acyl transferase (LCAT) in fasting plasma samples from 40 lean and 40 obese non-diabetic men and premenopausal women. Women, compared with men, had approximately 5% lower plasma LCAT (p < 0.041), approximately 35% greater LPL (p = 0.001) and approximately 10% greater CETP (p = 0.085) concentrations. Obese, compared with lean individuals of both sexes, had approximately 30% greater plasma LCAT (p < 0.001), approximately 20% greater CETP (p < 0.001) and approximately 20% greater LPL (p = 0.071) concentrations. Plasma HL concentration was not different in lean men and women. Obesity was associated with increased (by approximately 50%) plasma HL concentration in men (p = 0.018) but not in women; consequently, plasma HL concentration was lower in obese women than obese men (p = 0.009). In addition, there were direct correlations between plasma lipid transfer enzyme concentrations and lipoprotein particle concentrations and sizes. There are considerable differences in basal plasma lipid transfer enzyme concentrations between lean and obese subjects and between men and women, which may be partly responsible for respective differences in the plasma lipid profile.
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PMID:Plasma lipid transfer enzymes in non-diabetic lean and obese men and women. 1919 15

Dietary L-arginine (Arg) supplementation reduces white-fat gain in diet-induced obese rats but the underlying mechanisms are unknown. This study tested the hypothesis that Arg treatment affects expression of genes related to lipid metabolism in adipose tissue. Four-week-old male Sprague-Dawley rats were fed a low-fat (LF) or high-fat (HF) diet for 15 weeks. Thereafter, lean or obese rats continued to be fed their same respective diets and received drinking water containing 1.51% Arg-HCl or 2.55% L: -alanine (isonitrogenous control). After 12 weeks of Arg supplementation, rats were euthanized to obtain retroperitoneal adipose tissue for analyzing global changes in gene expression by microarray. The results were confirmed by RT-PCR analysis. HF feeding decreased mRNA levels for lipogenic enzymes, AMP-activated protein kinase, glucose transporters, heme oxygenase 3, glutathione synthetase, superoxide dismutase 3, peroxiredoxin 5, glutathione peroxidase 3, and stress-induced protein, while increasing expression of carboxypeptidase-A, peroxisome proliferator activated receptor (PPAR)-alpha, caspase 2, caveolin 3, and diacylglycerol kinase. In contrast, Arg supplementation reduced mRNA levels for fatty acid binding protein 1, glycogenin, protein phosphates 1B, caspases 1 and 2, and hepatic lipase, but increased expression of PPARgamma, heme oxygenase 3, glutathione synthetase, insulin-like growth factor II, sphingosine-1-phosphate receptor, and stress-induced protein. Biochemical analysis revealed oxidative stress in white adipose tissue of HF-fed rats, which was prevented by Arg supplementation. Collectively, these results indicate that HF diet and Arg supplementation differentially regulate gene expression to affect energy-substrate oxidation, redox state, fat accretion, and adipocyte differentiation in adipose tissue. Our findings provide a molecular mechanism to explain a beneficial effect of Arg on ameliorating diet-induced obesity in mammals.
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PMID:High fat feeding and dietary L-arginine supplementation differentially regulate gene expression in rat white adipose tissue. 1921 6

Obesity is associated with lipid abnormalities leading to an increased morbidity and mortality from atherosclerotic disease. Lipid transfer proteins such as Cholesteryl Ester Transfer Protein (CETP) and Phospholipid Transfer Protein (PLTP), and lipases such as lipoprotein lipase (LPL) and hepatic lipase (HL) are involved in the pathogenesis of the obesity associated proatherogenic dyslipidemia. Nineteen severely obese female subjects undergoing laparosopic gastric banding participated in this prospective study. Subjects were examined with respect to body composition, lipid profile, CETP, PLTP, LPL and HL before and 1 year after surgical treatment. Mean weight loss was 22.2 kg, mainly due to losses in the fat depots. Triglycerides decreased and HDL(2)-C increased significantly. In respect to transfer proteins mean CETP mass decreased from 1.82 to 1.71 microg mL(-1) (P = 0.043) and mean PLTP activity was reduced from 7.15 to 6.12 micromol mL(-1) h(-1) (P = 0.002), in parallel. In addition, both mean LPL activity and mean HL activity tended to decrease from 297 to 248 nmol mL(-1) h(-1) for LPL (P = 0.139) and from 371 to 319 nmol mL(-1) h(-1) for HL (P = 0.170), respectively. We conclude that weight loss induced by bariatric surgery is associated with the amelioration of the obesity-associated dyslipidemic state. This improvement may be attributable to decreased mass and action of the adipocyte tissue derived lipid transfer proteins CETP and PLTP.
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PMID:Effects of weight loss on lipid transfer proteins in morbidly obese women. 1978 2

Hepatic lipase (HL)-mediated lipoprotein hydrolysis provides free fatty acids for energy, storage, and nutrient signaling and may play a role in energy homeostasis. Because HL-activity increases with increased visceral fat, we hypothesized that increased HL-activity favors weight gain and obesity and consequently, that HL deficiency would reduce body fat stores and protect against diet-induced obesity. To test this hypothesis, we compared wild-type mice (with endogenous HL) and mice genetically deficient in HL with respect to daily body weight and food intake, body composition, and adipocyte size on both chow and high-fat (HF) diets. Key determinants of energy expenditure, including rate of oxygen consumption, heat production, and locomotor activity, were measured by indirect calorimetry. HL-deficient mice exhibited reduced weight gain on both diets (by 32%, chow; by 50%, HF; both P < 0.0001, n = 6-7 per genotype), effects that were associated with reduced average daily food intake (by 22-30% on both diets, P < 0.0001) and a modest increase in the rate of oxygen consumption (by 25%, P < 0.003) during the light cycle. Moreover, in mice fed the HF diet, HL deficiency reduced both body fat (by 30%, P < 0.0001) and adipocyte size (by 53%, P < 0.01) and fully prevented the development of hepatic steatosis. Also, HL deficiency reduced adipose tissue macrophage content, consistent with reduced inflammation and a lean phenotype. Our results demonstrate that in mice, HL deficiency protects against diet-induced obesity and its hepatic sequelae. Inhibition of HL-activity may therefore have value in the prevention and/or treatment of obesity.
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PMID:Mice lacking hepatic lipase are lean and protected against diet-induced obesity and hepatic steatosis. 2005 22

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