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)

To clarify the role of acyl-CoA synthetase in development of obesity, the mRNA levels and activities were studied in Zucker fatty rats (fa/fa). In Zucker fatty rats compared with their lean littermates, marked enhancement of ACS were observed in adipose tissues. Obese/lean rats ratio of ACS activity and mRNA in abdominal subcutaneous fat (3.3- and 3.9-fold, respectively) were greater than in mesenteric fat (2.0- and 2.2-fold). The enhancement of ACS activity and mRNA in the liver of fatty rats (1.2- and 1.8-fold) were less than those in the adipose tissues. There were no enhancement of ACS activities and mRNA levels in heart tissue of the obese rats. LPL mRNA levels were also enhanced in adipose tissue of fatty rats and obese/lean ratio of LPL mRNA was also higher in abdominal subcutaneous fat than mesenteric fat (6.2- vs 3.1-fold). The larger obese/lean rats ratio of LPL and ACS parameters in abdominal subcutaneous fat than mesenteric fat may be related to the observation that the increase of subcutaneous fat weight was larger than that of mesenteric fat weight in fatty rats (21.1- vs 4.9-fold). Integrated enhancement of LPL and ACS gene expression in adipose tissue may play an important role in the development of obesity.
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PMID:Marked enhancement of acyl-CoA synthetase activity and mRNA, paralleled to lipoprotein lipase mRNA, in adipose tissues of Zucker obese rats (fa/fa). 154 33

The effects of obesity, weight loss and weight maintenance on the serum lipid levels and lipoprotein lipase and hepatic triglyceride lipase were investigated in rats. Obesity induced by high-fat (HF) feeding was associated with decreased serum triglyceride levels (HF: 70.3 +/- 8.2, control (CON): 140.0 +/- 26.9 mg/dl, P less than 0.05), increased lipoprotein lipase (LPL, HF: 593.2 +/- 10.6 vs CON: 280 +/- 19.5 nmol FFA/min per mg tissue, P less than 0.05) and suppressed hepatic triglyceride lipase activities (HTGL, HF: 14.2 +/- 0.5 vs CON: 18.0 +/- 0.4 nmol FFA/min per mg tissue, P less than 0.01). After a weight loss to the level of control rats, weight maintenance was achieved either by high-protein (HP) or chow feedings (CH). Both high-protein (HFHP) and chow (HFHC) groups had similar weights but only high-protein feeding restored the normal body compositions. Both groups of rats had higher total (TC, HFHP: 146 +/- 10.7; HFCH: 104.8 +/- 5.1 mg/dl), and high density lipoprotein cholesterol levels (HDL-C, HFHP: 100.8 +/- 15.6; HFCH: 75.5 +/- 5.5 mg/dl) and lower lipoprotein lipase (HFHP: 238.2 +/- 15.8, HFCH: 354.8 +/- 34.9 nmol FFA/min per mg tissue) and hepatic triglyceride activities (HFHP: 16.3 +/- 1.1; HFCH: 14.5 +/- 0.6 nmol FFA/min per mg tissue) than control rats (TC: 70.1 +/- 4.7 mg/dl; HDL-C: 14.2 +/- 4.3 mg/dl; LPL: 742.4 +/- 82.3 nmol FFA/min per mg tissue; HTGL: 20.5 +/- 1.0 nmol FFA/min per mg tissue, P less than 0.05 to 0.005) or the rats who regained weight by resuming high-fat feeding (TC: 59.5 +/- 6.7 mg/dl; HDL-C: 10.2 +/- 6.7 mg/dl; LPL: 1284.3 +/- 90 nmol FFA/min per mg tissue; HTGL: 22.2 +/- 1.9 nmol FFA/min per mg tissue, P less than 0.05 to 0.005). The high protein-group had significantly higher total and high-density-lipoprotein cholesterol levels than the chow fed animals despite comparable body weights in both groups. The findings of this study suggest that weight maintenance induced by high protein feeding is more successful in restoring the normal body composition. However, high protein feeding is also associated with high serum cholesterol levels. The clinical applications of these findings need to be evaluated further.
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PMID:Effects of weight loss and weight maintenance on the serum lipids, lipoprotein lipase and hepatic triglyceride lipase activities in obese rats. 276 81

1. Adipose tissue lipoprotein lipase (EC 3.1.1.34; AT-LPL), a rate-limiting enzyme in triglyceride storage in adipose tissue, is hormonally regulated and may be important in the maintenance of obesity. 2. In twelve obese women, AT-LPL activity was measured before weight loss, during weight loss and after 1 and 2 weeks of weight maintenance on either a high-carbohydrate or a high-protein diet. 3. When related to tissue weight, AT-LPL activity during the 2 weeks of weight maintenance was higher than the initial AT-LPL activity; there was no difference when activity was expressed per cell. 4. Changes in AT-LPL activity were not affected by diet composition. AT-LPL activity correlated with insulin levels and a change in insulin sensitivity of AT-LPL was observed after weight loss.
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PMID:Diet composition and lipoprotein lipase (EC 3.1.1.34) activity in human obesity. 330 15

Adipose tissue distribution is an important predictor of obesity-associated morbidity and mortality. A central ('male') fat distribution is associated with increases in intra-abdominal adipose tissue which might be of metabolic importance. Although many recent studies have pointed out significant regional differences in the size and metabolism of subcutaneous fat cells intra-abdominal depots have not been systematically examined. We compared fat cell sizes (FCS) and lipoprotein lipase activity (LPLA) of two internal (omental, mesenteric) and four subcutaneous (SQ) sites (femoral, gluteal, abdominal, epigastric) in morbidly obese patients (26 premenopausal women and 14 men). Men had larger internal FCS than women while women had larger SQ FCS in the gluteal and femoral depots. Mesenteric FCS were largest of all sites in men. In women, omental fat cells were the smallest of all sites sampled but omental fat cells were as large as SQ sites in men. A more central distribution of fat in women (high waist/hip ratio) was associated with large mesenteric fat cells. Calculation of total fat cell number based on SQ FCS only, revealed sex differences that were eliminated by also using intra-abdominal FCS in the calculation. Averaged across all six sites, women had higher LPLA than men. Higher LPL activities were found in the lower-body subcutaneous sites with enlarged fat cells in women. However, the relative enlargement of intra-abdominal FCS in men was not associated with increased LPLA. In conclusion, sex- and site-specific variations in the distribution of FCS and LPLA in internal and SQ fat depots emphasize the importance of analyzing these depots in studies of fat cell number and adipose tissue metabolism.
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PMID:Sex differences in regional distribution of fat cell size and lipoprotein lipase activity in morbidly obese patients. 361 Apr 66

We report on clinical and metabolic studies of a newly delineated lipomatosis, characterised by an abnormal mediastinal and abdominal accumulation of fat, without obesity. The clinical features, which occurred in all the patients studied, are: Exertional dyspnoea due to a space-occupying mediastinal accumulation of fat, without evidence of cardiac or pulmonary disease. A pseudo-ascitic abdominal enlargement, due to intra- and retroperitoneal accumulation of fatty tissue. Insulin-independent diabetes mellitus. Type IV hyperlipidaemia and elevated levels of plasma uric acid were observed in four patients. Intra-abdominal lipomatous tissue, obtained during laparoscopy from four patients, demonstrated a reduced lipolytic response to beta-adrenergic stimulation. Thus, fat deposition in the abdominal and mediastinal areas could be causally related to defective lipid mobilization in lipomatocytes. Lipoprotein lipase activity in abdominal adipose tissue were normal in two patients (10.0 and 10.6 nmol/g/min) and markedly elevated in another two patients (37.3 and 49.9 nmol/g/min), as compared with controls (12.7 +/- 2.1 nmol/g/min). When expressed on per cell basis, LPL activity in lipomatous tissue was significantly higher than in control tissue (3.21 +/- 1.1 nmol/10(5) cell/min vs 0.92 +/- 0.16 nmol/10(5) cell/min). Lipoprotein fractionation did not demonstrate consistent modification of the serum lipoprotein pattern. HDL and HDL2 cholesterol values were reduced, even in patients with elevated LPL activity in adipose tissue.
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PMID:Mediastino-abdominal lipomatosis: deep accumulation of fat mimicking a respiratory disease and ascites. Clinical aspects and metabolic studies in vitro. 651 1

The relationship between obesity and alterations in adipose tissue metabolism and lipid transport was studied in fourteen obese subjects before and after a weight reduction of 4-22 kg. Blood glucose and plasma insulin patterns after peroral glucose intake improved significantly, and plasma glucagon levels decreased markedly after treatment. Plasma triglyceride and total cholesterol levels were not altered, but there was a 20% (P less than 0.05) increase in HDL concentrations. Plasma free fatty acid and glycerol concentrations decreased, in parallel to a decrease in lipolysis rate in vitro. Lipoprotein lipase and hepatic lipase activities in postheparin plasma, as well as the intravenous fat tolerance test, were normal and did not change significantly after weight loss. Lipoprotein lipase activity in adipose tissue, expressed per cell, was elevated and did not change after weight reduction. Also, the enzyme activity did not increase after glucose intake before or after treatment. The lack of effect on lipoprotein lipase activity and regulation in combination with significant improvements of other aspects of lipid and glucose transport is consistent with the view that alterations in LPL activity and regulation may represent an early and possibly primary defect in the development of obesity.
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PMID:Effects of weight reduction on plasma lipoproteins and adipose tissue metabolism in obese subjects. 680 Aug 25

The observation that different patterns of adipose tissue distribution are associated with different metabolic abnormalities, has recently given new impetus to research in obesity. Due to several methodologic problems, however, many aspects of regional excess of adipose tissue are still poorly understood. Among them, the causes and the metabolic consequences of regional adiposity are particularly important. Heterogeneity in adipose tissue distribution may be determined by a combination of genetic and hormonal causes. Both factors may determine differences in metabolism of various adipose tissue compartments primarily by regulating LPL production, storage and release of triacylglycerols, and aromatization of androgens. Furthermore, changes in adipocyte sensitivity to hormones such as, sex steroids, glucocorticoids, insulin and adrenergic hormones may also regulate fat distribution in various adipose tissue compartments. The metabolic heterogeneity of adipose tissue from various compartments, particularly the differences between the "portal" and subcutaneous adipose tissues, may account for several metabolic abnormalities associated with "upper body adiposity". However, no direct evidence is available to confirm this hypothesis. Recent advances in the methodology to study adipose tissue distribution (mainly CT and MRI) may provide the necessary tools to evaluate the true impact of adiposity in various compartments on intermediary metabolism and to identify a "morbid" adipose tissue compartment. These observations may help in designing better therapeutic strategies targeted towards regional adiposity and its metabolic complications.
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PMID:Heterogeneity in adipose tissue metabolism: causes, implications and management of regional adiposity. 764 53

Obesity is an increasingly prevalent problem, and long-term maintenance of the weight-reduced state is difficult for the obese individual. Following weight reduction, many metabolic changes occur. Among these is an increase in adipose tissue lipoprotein lipase (ATLPL), which predicts an alteration in lipid fuel partitioning which may then contribute to resumption of the obese state. The purpose of this study was to test whether changes in skeletal muscle LPL (SMLPL) and its response to insulin/glucose after sustained weight reduction also indicate a potential altered partitioning of lipid fuels away from oxidative pathways in muscle to storage in adipose tissue. Biopsies of vastus lateralis muscle were carried out in premenopausal obese women (n = 11, 94 +/- 4 kg, mean +/- SEM) before and after consumption of a 900 kcal day-1 diet for 3 months followed by 3 months of isocaloric maintenance of the reduced weight (n = 11, 82 +/- 4 kg). SMLPL activity was measured in the fasted state and after 6 h insulin/glucose infusion, before and after sustained weight loss. SMLPL activities were also measured in six normal weight women. Fasting SMLPL activity in obese women (3.9 +/- 0.3 nmol FFA min-1 g-1) was similar to that measured in normal weight control women (4.4 +/- 0.5). Unlike normal weight controls in whom a 6 h insulin/glucose infusion decreased SMLPL activity, in obese women the response of SMLPL was positive (normal weight vs. obese: delta -0.8 +/- 0.3 vs. delta 1.6 +/- 0.5, P = 0.002). Following maintained weight reduction, fasting SMLPL in the obese group was reduced to 1.2 +/- 0.3 (obese before weight loss vs. obese after: P = 0.0001). This change in fasting SMLPL activity following weight loss/maintenance correlated with the resultant change in percent body fat (r s = 0.663, P = 0.026).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Sustained weight reduction in moderately obese women results in decreased activity of skeletal muscle lipoprotein lipase. 765 17

A previous study reported the increased expression of the cytokine TNF in the adipose tissue of genetically obese rodents. To examine this paradigm in humans, we studied TNF expression in lean, obese, and reduced-obese human subjects. TNF mRNA was demonstrated in human adipocytes and adipose tissue by Northern blotting and PCR. TNF protein was quantitated by Western blotting and ELISA in both adipose tissue and the medium surrounding adipose tissue. Using quantitative reverse transcriptase PCR (RT-PCR), TNF mRNA levels were examined in the adipose tissue of 39 nondiabetic subjects, spanning a broad range of body mass index (BMI). There was a significant increase in adipose TNF mRNA levels with increasing adiposity. There was a significant correlation between TNF mRNA and percent body fat (r = 0.46, P < 0.05, n = 23). TNF mRNA tended to decrease in very obese subjects, but when subjects with a BMI > 45 kg/m2 were excluded, there was a significant correlation between TNF mRNA and BMI (r = 0.37, P < 0.05, n = 32). In addition, there was a significant decrease in adipose TNF with weight loss. In 11 obese subjects who lost between 14 and 66 kg (mean 34.7 kg, or 26.6% of initial weight), TNF mRNA levels decreased to 58% of initial levels after weight loss (P < 0.005), and TNF protein decreased to 46% of initial levels (P < 0.02). TNF is known to inhibit LPL activity. When fasting adipose LPL activity was measured in these subjects, there was a significant inverse relationship between TNF expression and LPL activity (r = -0.39, P < 0.02, n = 39). With weight loss, LPL activity increased to 411% of initial levels. However, the magnitude of the increase in LPL did not correlate with the decrease in TNF. Thus, TNF is expressed in human adipocytes. TNF is elevated in most obese subjects and is decreased by weight loss. In addition, there is an inverse relationship between TNF and LPL expression. These data suggest that endogenous TNF expression in adipose tissue may help limit obesity in some subjects, perhaps by increasing insulin resistance and decreasing LPL.
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PMID:The expression of tumor necrosis factor in human adipose tissue. Regulation by obesity, weight loss, and relationship to lipoprotein lipase. 773 78

This chapter has reviewed the evidence for obesity being characterized by distinct patterns of hormonal changes related to both the degree of obesity and the distribution of fat tissue. Many of these changes are also seen in subjects with Cushing's and polycystic ovary syndromes, in particular hyperinsulinaemia, alterations in adrenocortical activity and sex steroid secretion and binding. Animal models of obesity provide evidence to suggest the possibility of a primary abnormality of hypothalamic-pituitary function as a basis to corpulence and this cannot be excluded in the human situation. Nevertheless, abdominal distribution of adiposity plays a significant role in establishing a vicious cycle of metabolic events which may perpetuate both the obese state and PCOS. It is of interest that the additive genetic effect for total body fat is about 25% whereas the heritability of subcutaneous truncal-abdominal fat is about 30-35%, and may possibly be higher (Bouchard et al, 1993). Upper body obesity is characterized by large adipose cells with higher LPL activity, elevated basal and stimulated lipolysis but a low antilipolytic effect of insulin. The results from preliminary investigations of potential candidate genes suggest a possible genetic basis to hyperinsulinaemia/insulin resistance found in upper body obesity but further studies of greater numbers are required for confirmation. It is hoped that the findings from such molecular studies will shed additional light on both the genetic background to obesity and the complex hormonal alterations seen at the tissue level. This should provide the confirmation of a unifying theory for the causal factors associated with obesity and related conditions.
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PMID:Hormones and obesity. 798 Mar 47


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