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: EC:3.1.1.34 (lipoprotein lipase)
7,025 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The effects of two chronic ethanol treatment schedules, which produce different plasma ethanol concentrations, on the specific activities of adipose tissue lipoprotein lipase (LPL) and hormone-sensitive lipase (HSL) have been investigated in brown and white fat. 2. Mice provided with 20% ethanol solution as sole drinking fluid for 28 days consumed between 13 and 15 g ethanol kg-1 body weight day-1 over days 22-28. The mean plasma ethanol concentration was 4.94 +/- 1.4 mM (n = 8) at 09 h 00 min on day 28 when the lipase assays were performed. Mice given ethanol in a liquid diet for 7 days consumed between 15 and 18 g ethanol day-1 over days 3-7. The mean plasma ethanol concentration was 15.9 +/- 4.7 mM (n = 8) at 09 h 00 min on day 7. These concentrations of ethanol had no effect on the activity of either LPL or HSL in vitro. 3. LPL activity in white and brown fat (expressed as nmol fatty acids released h-1 mg-1 acetone powder) was unaltered 60 min following an acute injection of ethanol (2.5 g kg-1, i.p.) which produced a mean blood ethanol level of 37.5 +/- 6.7 mM. HSL activity in white fat (expressed as nmol fatty acid released h-1 mg-1 protein) was also unaffected by this acute dose of ethanol, but the activity in brown fat was significantly reduced: 3.07 +/- 0.30 (n = 8) after ethanol compared to 4.36 +/- 0.25 (n = 12) in controls (P < 0.01). 4. LPL activity in white fat was little altered by either of the chronic ethanol treatment schedules whilst LPL activity in the brown fat from the same animals was significantly increased compared to the respective control values: 0.27 +/- 0.03 (ethanol drinking), control: 0.16 +/- 0.01; 0.79 +/- 0.14 (ethanol liquid diet), control: 0.39 +/- 0.05. 5. HSL activity in white fat was significantly increased by the chronic drinking treatment (7.7 +/- 0.5; control: 3.78 +/- 0.17, n = 8) at the same time that the activity in brown fat was reduced (3.76 +/- 0.2; control: 4.74 +/- 0.16). The ethanol liquid diet also reduced HSL activity in brown fat but had negligible effect in white fat. 6. The effects of the two chronic ethanol treatments on adenosine 3':5'-cyclic monophosphate (cyclic AMP) accumulation in brown and white fat were very similar, both qualitatively and quantitatively, to the effects on HSL. 7. It has been shown that brown and white adipose tissues respond differently to the presence of chronic ethanol and that the response is dependent both upon the concentration of ethanol and the nature of the diet with which the ethanol is administered. The effects of ethanol on adipose tissue HSL activity appear to be mediated via changes in the tissue cyclic AMP level and, in this respect, brown fat is more sensitive to ethanol than white fat.
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PMID:Dose-dependent effects of chronic ethanol on mouse adipose tissue lipase activity and cyclic AMP accumulation. 905 14

Human brown pre-adipocytes were immortalized by microinjection of the genes encoding simian virus 40 T and t antigens under the control of the human vimentin promotor. The transfected pre-adipocytes were cultured for several months with no loss of their morphological characteristics. These cells accumulate lipids and differentiate into adipocytes when treated with insulin, triiodothyronine and dexamethazone. The mRNA of various adipocyte markers was detected by reverse transcriptase-polymerase chain reaction analysis, including hormone-sensitive lipase, lipoprotein lipase, adipsin, glucose transporters 1 and 4, the uncoupling protein (specific of brown adipocytes), and leptin, the product of the ob gene. Pharmacological analyses indicated that the beta3-adrenoceptor is the predominant beta-adrenoceptor subtype in PAZ6 cells and that this receptor subtype is functionally coupled to adenylate cyclase and lipolysis. The immortalization of human adipocytes will permit pharmacological analysis of the human beta3-adrenoceptor function in adipose cells and will allow detailed studies of human adipocyte differentiation.
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PMID:Human immortalized brown adipocytes express functional beta3-adrenoceptor coupled to lipolysis. 913 67

Familial combined hyperlipidemia (FCHL) is characterized by different lipid phenotypes (IIa, IIb, IV) and elevated apolipoprotein B (apo B) levels in affected family members. Despite intensive research, the genes involved in the expression of this complex disorder have not been identified, probably because of problems associated with phenotype definition, unknown mode of inheritance, and most probably genetic heterogeneity. To explore the genetics of FCHL in the genetically homogeneous Finnish population, we collected 14 well-documented Finnish pedigrees with premature coronary heart disease and FCHL-like dyslipidemia. The lipolytic enzymes lipoprotein lipase (LPL), hepatic lipase (HL), and hormone-sensitive lipase (HSL) were selected as initial candidate genes because of their central roles in apo B and triglyceride metabolism. On the basis of the pedigree structures, a dominant mode of inheritance was adopted for linkage analyses, and serum total cholesterol and/or triglyceride levels exceeding the 90th percentile level were set as diagnostic criteria (criterion 1). In pairwise linkage analyses with intragenic markers, no evidence for linkage was found. Instead, the significantly negative LOD scores suggested exclusion of all three loci for single major gene effect. LOD scores were -14.63, -5.03, and -5.70 for the three LPL polymorphisms (theta=0.00); -9.40, -6.30, and -4.74 for the three HL polymorphisms (theta=0.00); and -15.29 for the HSL polymorphism (theta=0.00). The results were very similar when apo B levels over the 90th percentile were used as criteria for affected status (criterion 2). Also, when linkage calculations were carried out using an intermediate or recessive mode of inheritance, the results of pairwise linkage analysis remained negative. Furthermore, when haplotypes were constructed from multiple polymorphisms of the LPL and HL genes, no segregation with the FCHL phenotype could be observed in the 14 Finnish families. Data obtained by the affected sib-pair method supported these findings, suggesting that the LPL, HL, or HSL genes do not represent major loci influencing the expression of the FCHL phenotype.
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PMID:No evidence of linkage between familial combined hyperlipidemia and genes encoding lipolytic enzymes in Finnish families. 915 46

HSL from chicken adipose tissue exhibits remarkable activation upon phosphorylation with cAMP-dependent protein kinase (cAMP-PK) compared to HSL from rat and human adipose tissue. In order to characterize the chicken HSL enzyme, it was purified 3500 fold from a chicken adipose tissue homogenate using pH 5.2 precipitation and anion-exchange chromatography. The purified chicken HSL was identified as an 86 kDa protein using Western blot analysis. The HSL diacylglycerol lipase activity was inhibited by 98% upon incubation with anti-rat HSL antiserum, and the specific activity of chicken HSL was estimated to be approximately the same as for the rat enzyme. Furthermore, the 86 kDa polypeptide was phosphorylated by cAMP-PK to about the same stoichiometry as for the recombinant rat enzyme. Hence, our results demonstrate that HSL from chicken adipose tissue is comparable in size and specific activity to HSL from mammalian species, and not a smaller 42 kDa polypeptide with 1000-fold lower specific activity as previously reported (Berglund, L., Khoo, J. C., Jensen, D., and Steinberg, D., 1980 J. Biol. Chem. 255, 5420-5428).
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PMID:Partial purification and identification of hormone-sensitive lipase from chicken adipose tissue. 922 33

High levels of adipose tissue-derived tumor necrosis factor-alpha (AT-TNF) mRNA and protein have previously been associated with genetic models of obesity and insulin resistance. Because there are endogenous TNF inhibitors it is unknown if AT-TNF activity is also increased. We hypothesized that AT-TNF activity would increase in older animals because of an accumulation of fat mass. We chose to study 2 different-aged male Fischer 344 rats, 3-month-old (young) and 14-month-old (mature) because fat mass should be quite different but insulin action on glucose metabolism similar. Indeed, mature rats had over 1.5-fold more fat mass, but whole body insulin resistance, as estimated by fasting plasma insulin, was similar to young rats. Mature rats had twice as much AT-TNF activity as the young in both the epididymal (EPI) and retroperitoneal (Retro) fat pads (p < .0005). AT-TNF correlated with fasting plasma insulin in Retro only (r = .48, p = .04). AT-TNF activity strongly correlated with cell size in both EPI and Retro (r = .79 and .81, respectively, p < .0001). Because cytokines can be regulated at several levels, AT-TNF activity, protein, and mRNA were measured. AT-TNF protein levels were higher in young rats, suggesting that these animals may secrete an inhibitor that reduces AT-TNF activity. There were no significant differences in AT-TNF mRNA between groups. Since TNF has been shown to affect several key genes in tissue culture, mRNA for lipoprotein lipase, hormone-sensitive lipase, and Glut4 were measured. No differences were found between groups. In summary, AT-TNF activity increased in mature animals in relation to adipose cell size.
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PMID:Adipose tissue-derived tumor necrosis factor-alpha activity is elevated in older rats. 922 23

Leptin is a 16-kd protein synthesized and secreted by adipose tissue, which regulates adiposity and body weight. To investigate the peripheral effects of recombinant human leptin, lean C57BL/6 mice were treated with subcutaneous injections of vehicle or 20 mg/kg/day leptin for 1 to 14 days. Groups of animals were killed on Days 1, 2, 3, 4, 7, or 8 and 15 to evaluate the time course of clinical chemistry, morphologic, and molecular changes in white (WAT) and brown adipose tissue (BAT) depots. There was a progressive daily reduction in the body weight of mice receiving leptin. By Day 15, the body weight of leptin-treated groups decreased by 6% to 8% relative to base-line weight. Clinical chemistry changes in treated mice included decreased cholesterol and triglyceride levels. At necropsy, the mice had rapidly progressive atrophy of subcutaneous, intra-abdominal, and retroperitoneal WAT and interscapular BAT depots, with complete depletion of fat stores by Days 3 to 4 in most females and by Days 7 to 14 in male mice. Histologically, white and brown adipocytes underwent marked atrophy with loss of lipid droplets and activation of BAT cells in WAT depots. Ultrastructurally, white and brown adipocytes contained numerous, enlarged mitochondria. Molecular analysis of key adipose tissue genes in brown and white fat depots revealed a rapid, selective increase in the mRNA expression of thermogenic proteins and lipolytic enzymes, including uncoupling proteins 1 and 2, lipoprotein lipase, and hormone-sensitive lipase, with decreases in the lipogenic enzyme fatty acid synthase, endogenous leptin, and cytochrome c oxidase. These data suggest that the peripheral effects of leptin include increased thermogenesis and lipid oxidation in brown fat coupled with increased lipolysis and decreased fat synthesis in white and brown fat, which lead to a rapid reduction in the body weight and adiposity of mice.
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PMID:Morphologic and molecular changes induced by recombinant human leptin in the white and brown adipose tissues of C57BL/6 mice. 931 48

Lipoatropic diabetes (LD) is a rare recessive autosomal disorder, mainly characterized by lipoatrophy with alterations in lipid metabolism and extreme insulin resistance. To identify molecular defects responsible for this disease, we tested the implication of 14 candidate genes coding for proteins involved either in insulin action, i.e. insulin receptor, insulin receptor substrate 1, insulin-like growth factor I receptor, diabetes-associated ras-like protein (Rad), and glycogen synthase, or in lipid metabolism, i.e. lipoprotein lipase; apolipoproteins CII, AII, and CIII; hepatic lipase; hormone-sensitive lipase; the beta 3-adrenergic receptor; leptin; and fatty acid-binding protein 2. To this end, haplotype and linkage analyses using genotyping with microsatellites in 10 consanguineous families provided us with powerful genetic tools. Our results show that in most families, lod scores at a null recombination fraction were less than -2. Haplotype analysis also argues against the involvement of these genes in LD. This implies that mutations in these genes are unlikely to make a major genetic contribution to LD.
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PMID:Genetic exclusion of 14 candidate genes in lipoatropic diabetes using linkage analysis in 10 consanguineous families. 932 83

The metabolism of free fatty acids (FFA) is altered in two common atherosclerosis-promoting disorders: familial combined hyperlipidemia (FCHL) and insulin resistance syndrome (IRS). It has been suggested that these two conditions may have a common etiology. The enzymes lipoprotein lipase (LPL) and hormone-sensitive lipase (HSL) are rate-limiting steps for the turnover of fatty acids in adipose tissue, because they hydrolyze extracellular triglycerides in lipoproteins (LPL) and intracellular triglycerides in adipocytes (HSL). The present study was undertaken to simultaneously determine the activities of LPL and HSL in subcutaneous adipose tissue from male patients with FCHL and IRS. LPL and HSL activity was investigated in 10 nonobese FCHL patients and compared with 10 matched healthy nonobese subjects, and in 8 essentially normolipidemic IRS patients (who did not have overt diabetes mellitus) and compared with 9 nonobese matched control subjects. LPL activity was 43% lower in patients with IRS (P < .0005), as compared with control subjects, but HSL activity was not significantly different in the two groups, On the other hand, HSL activity was decreased by 45% in FCHL patients (P < .01), as compared with control subjects, but LPL activity was not significantly different in FCHL patients and the control group. In conclusion, triglyceride metabolism in adipose tissue is altered in both FCHL and IRS. However, the abnormalities observed involve impaired function of LPL in IRS and impaired function of HSL in FCHL, suggesting separate etiologies for the altered lipolysis in these conditions, at least in male subjects.
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PMID:Adipose tissue lipoprotein lipase and hormone-sensitive lipase. Contrasting findings in familial combined hyperlipidemia and insulin resistance syndrome. 935 2

Dietary n-3 polyunsaturated fatty acids (n-3 PUFAs) limit abdominal fat depot hypertrophy. This could be due to regulation of the expression of proteins involved in adipose tissue metabolism. We investigated in vivo whether fatty acid synthase (FAS), hormone-sensitive lipase (HSL), lipoprotein lipase (LPL), phosphoenolpyruvate carboxykinase (PEPCK), CCAAT/enhancer binding protein alpha (C/EBP alpha), and leptin mRNA levels are affected in retroperitoneal (RP) and subcutaneous adipose tissues (SC) of rats fed n-3 PUFAs. For 4 weeks rats were fed high fat diets (20% fat) containing n-3 PUFAs given as eicosapentaenoic acid (EPA group), docosahexaenoic acid (DHA group), a mixture of these two fatty acids (MIX group), or native fish oil (FO group). A control group was fed with lard plus olive oil (LOO group). Final mean fat cell weight in RP ranged according to: LOO > or = EPA > or = DHA = FO = MIX. There was no difference in fat cell size of SC when comparing the LOO and MIX groups. The fatty acid compositions of RP and SC were similar and resemble that of dietary fat within each experimental group. In RP and compared to the LOO group, FAS, HSL, PEPCK, LPL, C/EBP alpha, and leptin mRNA levels decreased although not significantly in the EPA group, and were 40-75% lower in the DHA and MIX groups. mRNA levels were positively correlated to fat cell size in RP. In contrast, n-3 PUFAs had no effect on gene expression in SC. We conclude that n-3 PUFAs and mainly 22:6n-3 affect gene expression in a site-dependent manner in white adipose tissues via possible antiadipogenic effects.
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PMID:Site-specific regulation of gene expression by n-3 polyunsaturated fatty acids in rat white adipose tissues. 937 19

Cortisol is known to increase whole body lipolysis, yet chronic hypercortisolemia results in increased fat mass. The main aim of the study was to explain these two apparently opposed observations by examining the acute effects of hypercortisolemia on lipolysis in subcutaneous adipose tissue and in the whole body. Six healthy subjects were studied on two occasions. On one occasion hydrocortisone sodium succinate was infused i.v. to induce hypercortisolemia (mean plasma cortisol concentrations, 1500 +/- 100 vs. 335 +/- 25 nmol/L; P < 0.001); on the other occasion (control study) no intervention was made. Lipolysis in the s.c. adipose tissue of the anterior abdominal wall was studied by measurement of arterio-venous differences, and lipolysis in the whole body was studied by constant infusion of [1,2,3-2H5]glycerol for measurement of the systemic glycerol appearance rate. Hypercortisolemia led to significantly increased arterialized plasma nonesterified fatty acid (NEFA; P < 0.01) and blood glycerol concentrations (P < 0.05), with an increase in systemic glycerol appearance (P < 0.05). However, in s.c. abdominal adipose tissue, hypercortisolemia decreased veno-arterialized differences for NEFA (P < 0.05) and reduced NEFA efflux (P < 0.05). This reduction was attributable to decreased intracellular lipolysis (P < 0.05), reflecting decreased hormone-sensitive lipase action in this adipose depot. Hypercortisolemia caused a reduction in arterialized plasma TAG concentrations (P < 0.05), but without a significant change in the local extraction of TAG (presumed to reflect the action of adipose tissue lipoprotein lipase). There was no significant difference in plasma insulin concentrations between the control and hypercortisolemia study. Site-specific regulation of the enzymes of intracellular lipolysis (hormone-sensitive lipase) and intravascular lipolysis (lipoprotein lipase) may explain the ability of acute cortisol treatment to increase systemic glycerol and NEFA appearance rates while chronically promoting net central fat deposition.
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PMID:Effects of physiological hypercortisolemia on the regulation of lipolysis in subcutaneous adipose tissue. 946 84


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