EC:3.1.1.79 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.1.79 (hormone-sensitive lipase)
2,163 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

While growth hormone (GH) has long been known as a lipolytic hormone, it has been difficult to study the cellular mechanisms for this effect. Since cultured 3T3-F442A adipocytes have recently proven to be useful to study chronic effects of GH on adipocyte metabolism, we examined the effects of GH on lipolysis. In these cells, GH alone produced a dose-dependent increase in the release of glycerol after 24 to 48 hours. The maximum increase occurred with 10 ng/mL human GH. The effect of GH was similar in the presence and absence of dexamethasone. Under each condition, the stimulation of glycerol release was accompanied by a GH-induced increase in the activity of hormone-sensitive lipase (HSL), a key lipolytic enzyme. The increase in HSL required 24 hours with GH and lasted at least 48 hours. The increase in HSL activity by epinephrine, like glycerol release, was potentiated by GH. Although GH potently simulates the activity of the lipogenic enzyme glycerol phosphate dehydrogenase (GPD) in differentiating 3T3-F442A preadipocytes, GH had a negligible effect on GPD activity in the differentiated adipocytes with chronic or short-term incubation. However, in contrast to the chronic effect of GH, short-term (30-minute) incubation with GH inhibited epinephrine-stimulated glycerol release, a characteristic transient antilipolytic effect of GH. These studies indicate that chronic GH treatment is lipolytic in cultured 3T3-F442A adipocytes, and document that lipolytic responses to GH involve an increase in the activity of HSL.
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PMID:Growth hormone alters lipolysis and hormone-sensitive lipase activity in 3T3-F442A adipocytes. 186 30

Long chain fatty acids (FA) and 2-monoacylglycerols (MG) are produced by lipoprotein lipase (LPL) from plasma triacylglycerols (TG) in capillaries of adipose tissue and transported to adipocytes for TG synthesis. It is widely proposed FA may be transported in cells by FA-binding protein. Mode of transport of MG has received little attention. Our findings in tissues and model membranes indicate that FA (as 1:1 acid-soaps) and MG can be transported in vivo by lateral movement in an interfacial continuum (IFC) of the outer leaflets of plasma and intracellular membranes of capillary endothelium and adipocytes. We postulate that FA and MG enter the IFC in capillaries and flow in the IFC across endothelium and extracellular space to sites in adipocytes where MG are hydrolyzed by MG-lipase (MGL) to FA and glycerol, and FA are esterified in endoplasmic reticulum or transferred to inner mitochondrial membrane for oxidation. FA and MG produced by hormone-sensitive lipase also enter the IFC. These MG flow in the IFC to sites of MGL activity, and the FA flow in the IFC to capillaries for transport to other tissues by albumin, or to mitochondria for heat production.
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PMID:Transport of fatty acids and monoacylglycerols in white and brown adipose tissues. 195 50

Neutral cholesterol esterase activity is expressed in extracts of mammary epithelial cells. The identity of the enzyme catalyzing this hydrolysis was investigated. Anti-hormone-sensitive lipase immunoglobulin elicited the total inhibition of this activity and also immunoprecipitated a single phosphoprotein of Mr 84 kDa from mammary cell extracts previously phosphorylated in vitro with [gamma-32P]ATP and cyclic AMP-dependent protein kinase. It is concluded that mammary cell cholesterol esterase activity results from the presence of hormone-sensitive lipase.
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PMID:Cholesterol ester hydrolysis and hormone-sensitive lipase in lactating rat mammary tissue. 202 45

The spontaneous expression of HLA class-I and class-II molecules in 5 human breast carcinoma cell lines, MCF-7, T47D, ZR75-1, HSL-53, MDA-MB 231, and their modulation during IFN-gamma treatment, are reported. The expression of cell-surface determinants was examined by indirect immunofluorescence using monoclonal antibodies (MAbs) specific for HLA class-I and class-II (DR, DQ and DP) antigens. The biosynthesis and maturation of these molecules were analyzed by 2-dimensional gel electrophoresis analysis (2D-PAGE) of class I, DR alpha, beta and invariant immunoprecipitates. Transcription was analyzed by Northern blot hybridization with HLA class-I and -II cDNA-specific probes. In all cell lines, more than 80% of cells expressed HLA class-I antigens at their surface. 2D-PAGE and mRNA studies showed a variable basal level of HLA class-I biosynthesis and transcription with a constant increase after 1,000 U/ml IFN-gamma treatment. HLA class-II determinants were totally absent from the surface of MCF-7, MDA MB231, ZR75-1 and T47D but they were detected in a small subpopulation of HSL-53 cells (DR 6%, DQ 6%, DP 20%). Spontaneous biosynthesis of HLA-DR molecules in immunoprecipitates analyzed by 2D-PAGE or transcripts in Northern blot were not detected in the 5 cell lines. Treatment with 1000 U/ml IFN-gamma induced or increased the expression of HLA class-II molecules in all cell lines but DQ expression was variable. While T47D, ZR75-1 and HSL-53 increased their transcripts and antigen expression, MDA, MB231 and MCF-7 showed no DQ mRNA transcript. Biochemical analysis of the DR products revealed a classical alpha, beta and invariant (li) chain pattern, but indicated a constant glycosylation defect in the invariant chain in all cell lines, associated with weak expression of the beta chain and the presence of an extra spot of low molecular weight in the acidic part of the gel. Thus, post-transcriptional events did not appear to be totally controlled by IFN-gamma in the different cell lines. These differences in DQ expression and glycosylation process in different breast cancer cells may be important in the activation of the immune response among different individuals.
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PMID:Effect of gamma interferon on HLA class-I and -II transcription and protein expression in human breast adenocarcinoma cell lines. 211 15

Age-dependent alterations in the effects of catecholamines on lipolysis were investigated in 25 young (21-35 yr) and 10 elderly (58-72 yr) healthy, nonobese subjects using isolated adipocytes obtained from abdominal subcutaneous tissue. Basal lipolysis was not affected by aging, while the rate of catecholamine-stimulated lipolysis was reduced by 50% in the elderly subjects (P less than 0.005). To elucidate the mechanisms behind this phenomenon lipolysis was stimulated with agents that act at well-defined steps in the lipolytic cascade, from the receptor down to the final step: the activation of the protein kinase/hormone-sensitive lipase complex. All agents stimulated lipolysis at a 50% lower rate in elderly as compared with young subjects (P less than 0.05 or less). However, half-maximum effective concentrations of the lipolytic agents were similar in both groups. The antilipolytic effects of alpha 2-adrenoceptor agonists were also the same in young and old subjects. Moreover, the stoichiometric properties of the beta- and alpha 2-receptors did not change with increasing age. In vivo studies performed on the same individuals likewise demonstrated an impaired lipolytic responsiveness, with 50% lower plasma glycerol concentrations during exercise in the elderly subjects (P less than 0.05), in spite of a normal rise in plasma norepinephrine. The plasma glycerol levels correlated strongly to the glycerol release caused by catecholamine-stimulated lipolysis in vitro in both young and elderly subjects (r = 0.8-0.9, P less than 0.001). In conclusion, a decreased activation of the hormone-sensitive lipase complex appears to be the mechanism underlying a blunted lipolytic response of fat cells to catecholamine stimulation in elderly subjects. This finding may, explain the age-dependent decreased lipolytic response to exercise in vivo.
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PMID:Catecholamine-induced lipolysis in adipose tissue of the elderly. 215 25

The amount of fatty acid release by a fat cell homogenate without pretreatment with epinephrine was found to be slightly more than that released from fat cells by epinephrine, suggesting that fat cells contain high lipolytic activity even in the absence of lipolytic agents. Fat cells contain high hormone-sensitive lipase activity (1383 mumole free fatty acids/g/hr) in the absence of epinephrine, and addition of epinephrine to the cells did not increase the activity, significantly. Like epinephrine, DBcAMP and/or theophylline also elicited marked release of glycerol from fat cells without activating the hormone-sensitive lipase activity. However, although fat cells contain a large amount of hormone-sensitive lipase, lipolysis was negligible in the absence of these lipolytic agents. These results suggest that lipolytic agents such as epinephrine, DBcAMP, and theophylline induce lipolysis in fat cells through some mechanism other than activation of hormone-sensitive lipase and that in the absence of lipolytic agents, some system in fat cells inhibits lipolysis of endogenous lipid droplets by hormone-sensitive lipase. The lipid droplets in fat cells consist mainly of triglyceride with phospholipids, cholesterol, carbohydrate, and protein as minor constituents. The phospholipid fraction was found to consist of 75% phosphatidylcholine and 25% phosphatidylethanolamine. Of the minor constituents of endogenous lipid droplets, only phosphatidylcholine strongly inhibited hormone-sensitive lipase activity in a [3H]triolein emulsion. These results suggest that phosphatidylcholine in endogenous lipid droplets may be responsible for inhibition of hormone-sensitive lipase. Then, a cell-free system was established in which epinephrine, DBcAMP, and theophylline stimulated lipolysis of endogenous lipid droplets from fat cells by lipase solution. In this system, these lipolytic agents did not induce lipolysis in the absence of added lipase. Lipolysis in the mixture of the endogenous lipid droplets and lipase solution was accelerated by phospholipase C with concomitant loss of epinephrine-induced lipolysis. After pretreatment of the endogenous lipid droplets with phospholipase C, these lipolytic agents no longer induced lipolysis. Pretreatment of the endogenous lipid droplets with phospholipase C reduced their phospholipid content with the formation of phosphorylcholine, but did not affect their triglyceride and cholesterol contents. Treatment of the endogenous lipid droplets with phospholipase D did not affect lipolysis in the cell-free system. These results suggest that phosphatidylcholine in the endogenous lipid droplets may inhibit their lipolysis by hormone-sensitive lipase in fat cells and also be involved in the mechanisms of the stimulatory effects of epinephrine, DBcAMP, and theophylline on lipolysis.
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PMID:Biomodulator-mediated susceptibility of endogenous lipid droplets from rat adipocytes to hormone-sensitive lipase. 216 Dec 47

Phosphorylation site 2 on bovine hormone-sensitive lipase (HSL), which is phosphorylated in vitro by the AMP-activated protein kinase, has been found also to be phosphorylated in vitro by glycogen synthase kinase-4. Peptide mapping of HSL phosphorylated in vitro and in isolated adipocytes demonstrates that this site corresponds to the basal phosphorylation site on HSL, which is phosphorylated in intact adipocytes in the absence of lipolytic stimuli. Site 2 has been proposed to have an antilipolytic role in that phosphorylation at this site greatly reduces subsequent phosphorylation (at site 1) and activation of HSL by cyclic-AMP-dependent protein kinase. Further evidence for an antilipolytic role of site 2 has been obtained using a synthetic peptide based on the sequence around sites 1 and 2. Phosphorylation of the peptide at site 2 totally prevents the subsequent phosphorylation of site 1 and vice versa.
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PMID:Identification and role of the basal phosphorylation site on hormone-sensitive lipase. 216 6

The effect of adrenergic agents on protein phosphorylation in human adipocytes was examined. Freshly isolated human fat cells were incubated with 32PO4 in order to label intracellular ATP, then treated with a variety of adrenergic and other pharmacologic agents. Treatment with the beta-adrenergic agonist isoproterenol led to a significant increase in phosphate content of at least five protein bands (Mr 52, 53, 63, 67, 84 kDa). The increase in phosphorylation was partially inhibited by the alpha-2 agonist clonidine. Epinephrine, a combined alpha and beta agonist, was less effective at increasing phosphate content of the proteins than was isoproterenol. Neither insulin nor the alpha-1 agonist phenylephrine had any discernible effect on the pattern of protein phosphorylation. The 84 kDa phosphorylated peptide band appears to contain hormone-sensitive lipase, a key enzyme in the lipolytic pathway which is activated by phosphorylation. These results are somewhat different than previously reported results for rat adipocytes, and represent the first report of overall pattern and adrenergic modulation of protein phosphorylation in human adipocytes.
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PMID:Protein phosphorylation in isolated human adipocytes-adrenergic control of the phosphorylation of hormone-sensitive lipase. 217 Jul 90

The possibility that postprandial hyperinsulinemia could play a role in the development of hepatic lipid disturbances during convalescence from influenza B infection was explored in the ferret as a possible model of the steatosis of Reye's syndrome. Postprandial hyperinsulinemia was produced by feeding young ferrets glucose/water and a regular diet (glucose-treated group), as reflected by the mean serum insulin levels attained, which were 57 and 135 microU/ml during control and postinfluenza periods, respectively. By comparison, ferrets fed water and a regular diet (untreated group) had mean insulin levels of 19 and 22 microU/ml, while postprandial glucose levels were comparable in the two groups of animals for each period. In contrast to untreated animals, grossly visible fatty livers were found in glucose-treated ferrets during convalescence. The total lipid content of these livers had doubled compared with preinfection samples and compared with livers of untreated ferrets. By electron microscopy hepatic mitochondria showed striking changes with diminution of matrix density and reduction in cristae surface area only in convalescent samples from glucose-treated animals. Serum free fatty acid (FFA) levels were considerably higher in the glucose-treated animals during fasting before influenza and also after feeding during convalescence. Serum triglyceride (TG) levels were also high during convalescence in the glucose-treated group. Adipose tissue lipoprotein lipase activities were similar between groups, but hormone-sensitive lipase activity was twelvefold higher in glucose-treated ferrets before and after influenza B. These findings indicate that for a given stimulus, glucose-treated ferrets would mobilize more FFA than untreated ferrets. The total capacity for beta-oxidation of FA by the mitochondrial pathway was identical in all groups of animals. Total carnitine palmitoyl transferase (CPT) activity was the same in both control groups, but was significantly diminished in glucose-treated animals during convalescence. As CPT regulates the entry of FA into the mitochondrial matrix, its reduction in response to higher insulin concentrations would limit the oxidation of FA and stimulate TG accumulation. Therefore, the accumulation of lipid in the liver in this model is regarded to have been caused by the simultaneous occurrence of increased lipolysis and increased hepatic TG synthesis owing, in part, to diversion of activated FA by CPT, which is reduced in activity due to the regulatory action of insulin. These findings may have pathophysiologic relevance for the lipid changes that occur in Reye's syndrome and to fatty liver formation in hyperinsulinemic states.
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PMID:Hepatic steatosis during convalescence from influenza B infection in ferrets with postprandial hyperinsulinemia. 220 96

The cellular control of intramuscular triglyceride (TG) metabolism involves two major identified lipases: hormone-sensitive lipase (HSL) and lipoprotein lipase (LPL). Recently, the presence of HSL in muscle has been unequivocally demonstrated. However, although it is thought that HSL is responsible for intramuscular TG lipolysis, direct evidence for this is lacking. There is evidence to suggest that HSL and LPL are simultaneously activated under a variety of conditions. The two muscle lipases appear to be turned on by the same signal and function as a coordinated unit in meeting the energy demands of muscle. At a time when HSL is presumably hydrolyzing endogenous TG, LPL is sent to the capillary beds in search of substrate. TG uptake from circulation is highly related to muscle LPL activity. Exercise training increases LPL activity in plasma and in parenchymal cells in muscle. These results suggest that training may increase the capacity to clear TG from circulation and that LPL might have a role in replenishing muscle TG stores that have been decreased with exercise.
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PMID:Lipase regulation of muscle triglyceride hydrolysis. 227 48

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