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)

Hepatic lipase (HL) is a member of the lipoprotein lipase/pancreatic lipase gene family and is believed to function in processing of intermediate and high density lipoproteins. As a lipase, HL is presumed to have a lipid interfacial binding domain, distinct from the esterase catalytic site, orienting the enzyme at aqueous-lipid interfaces and resulting in activation of esterase activity. However, the structural domains responsible for these separate functions have not been identified. Amino acid sequence homology to serine proteases, thioesterases and other lipases, identified Ser147 of rat HL as part of a highly conserved element in an esterase gene family. In order to better define the function of this domain in HL, site-directed mutagenesis was utilized to produce mutant cDNAs with amino acid substitutions for Ser147, Ser133, or Ser228. Following injection of Xenopus oocytes with SP6 transcripts for normal or mutant HL, media from the oocytes were assayed for lipolytic activity and immunoprecipitable HL protein. Mutations of Ser133 and Ser228 produced no decrease in activity whereas the mutant protein in which Ser147 was replaced with glycine had little, if any activity against emulsified triolein substrates. Replacing HL Ser147 with glycine also resulted in a protein with little or no measurable activity for tributyrin, a substrate which does not provide a lipid interface. These results suggest that Ser147 in rat HL is either located at the catalytic site or is required for maintaining the structural integrity of the catalytic site.
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PMID:Hepatic lipase: site-directed mutagenesis of a serine residue important for catalytic activity. 210 59

This report describes the partial characterization of the enzymatic activity responsible for the hydrolysis of acetate from 1-alkyl-2-acetyl-sn-glycerol, the immediate precursor in the de novo synthesis of PAF (platelet-activating factor or 1-alkyl-2-acetyl-sn-glycero-3-phosphocholine) by Ehrlich ascites cells. The highest acetylhydrolase activity for this neutral lipid was associated with the membrane fractions from Ehrlich ascites cells (greater than 90% of total activity); only a minimal level of activity (less than 10%) was observed in the cytosol which contrasts with the cytosolic site of PAF acetylhydrolase in normal cells. Hydrolysis of 1-[3H]hexadecyl-2-acetyl-sn-glycerol by the membrane fraction at pH 7.5 and 37 degrees C gave apparent values for Km and Vmax of 45 microM and 179 nmol/min per mg protein, respectively. Hydrolysis of acetate from 1-[3H]hexadecyl-2-acetyl-sn-glycerol by the membrane fraction was not affected by 5 mM concentrations of Ca+2, Mg+2 or EDTA, but was significantly inhibited (80% reduction) by 10 mM NaF. Based on differences in both the subcellular distribution and response to inhibition by NaF, the neutral lipid acetylhydrolase does not appear to be the same enzyme that hydrolyzes acetate from platelet-activating factor. In contrast to inhibition of diacylglycerol lipase by p-chloromercuribenzoate and N-ethylmaleimide, we found no significant inhibition of acetate hydrolysis from 1-[3H]hexadecyl-2-acetyl-sn-glycerol by either of these compounds. Also, p-nitrophenyl acetate (a nonspecific esterase substrate) failed to inhibit acetate hydrolysis of 1-[3H]hexadecyl-2-acetyl-sn-glycerol. Our studies of this enzyme would indicate that it may play an important role in regulating the levels of platelet-activating factor synthesized by the de novo pathway via hydrolysis of the immediate precursor of PAF.
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PMID:Characterization of the enzymatic hydrolysis of acetate from alkylacetylglycerols in the de novo pathway of PAF biosynthesis. 230 14

Stromal vascular cell cultures, prepared from the inguinal pads of 50-g Sprague Dawley rats, were exposed to media with 10% fetal pig serum which is inherently low in insulin, for the first 3 to 5 d of culture. Insulin was supplemented to media for periods of 2 to 6 d. In cultures treated (2 to 4 d) with 10(-9), to 10(-10) or 10(-11) M insulin, differentiated cells (lipid and esterase staining) appeared 1.5 to 2 times wider than differentiated cells in control cultures. At 10(-9) M insulin (4 to 5 d), in cultures grown in the presence of fetal pig serum the number of esterase reactive cells was increased twofold to threefold. The percentage of total cells that were esterase reactive was elevated 50 to 300% relative to control cultures. Insulin-treated preadipocytes were more reactive for lipoprotein lipase activity (histochemical assay) compared with reactivity of control cells. Quantitative analysis of percentage of light transmittance (Zeiss photometer) through stained cells indicated an increase (P less than .001) in lipoprotein lipase staining at 10(-9), 10(-11) and 10(-13) M insulin (2 d). The specific activity of glycerol phosphate dehydrogenase was elevated twofold to threefold (P less than .05) and soluble protein elevated 50 to 100% (P less than .05) in cultures treated (3 to 6 d) with 10(-9) M insulin. Decreasing the cell plating density (50%) in cultures grown in the presence of pig serum reduced the elevation in enzyme activity induced by insulin in preadipocyte cultures. Physiological levels of insulin enhanced lipogenic enzyme activity in preadipocytes and may enhance the conversion of stromal cells to preadipocytes.
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PMID:The effect of insulin on primary cultures of rat preadipocytes grown in fetal or postnatal pig serum. 306 23

The macrophage-secreted hormone cachectin depressed lipoprotein lipase activity and lipogenic enzymes in adipose cells. Cachectin reduced differentiation of preadipocytes in cultures of stromal-vascular cells from rat adipose tissue. Differentiation was measured by two methods of estimating lipid accumulation. Adipocytes were separated from the stromal-vascular cells by centrifugation and staining (oil red 0) for intracellular lipid. Lipolytic activity was measured by using esterase histochemistry. Sera from pigs that were infected with Sarcocystis suicanis showed cachectin-like activity compared with sera collected from the same animals before infection. Cachectin and sera collected from infected animals specifically decreased fat cell number without decreasing the stromal-vascular cell number.
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PMID:Sera from pigs infected with Sarcocystis suicanis and cachectin decrease preadipocyte differentiation in primary cell culture. 314 80

The differentiation of perirenal adipose tissue was ascertained in fetuses from Ossabaw (wild and obese) and cross-bred lean dams at 70, 90 and 110 days gestation and from domestic lean and obese dams (USDA) at 110 days gestation. Condensation of presumptive adipocyte clusters was more apparent in Ossabaw sections than in cross-bred (lean) sections at 90 and 110 days gestation. Enzyme and lipid histochemistry showed fat cell cluster development to be largely independent of fetal strain (Ossabaw vs crossbred). However, adipocytes in Ossabaw fetuses were larger (110 days) and more reactive for esterase activity (all three ages) than were adipocytes from crossbred fetuses. Fetuses from USDA-obese dams had larger fat cell diameters (P less than 0.01), a higher percentage of lipoprotein lipase (LPL) positive cells than did fetuses from USDA-lean dams. Perirenal fat pad weights, percent depot lipid, percentages of glucose-6-phosphate dehydrogenase (G6PDH) and succinate dehydrogenase (SDH) positive cells were independent of fetal strain (USDA, lean vs obese). Fat cell cluster development was independent of fetal strain but large cellular condensations of presumptive cells were only present in sections from lean fetuses. Immature capillary beds (devoid of adipocytes) were demonstrable in lean sections but were not observed in obese sections. Morphological and histochemical results from both studies provide no evidence for brown adipocyte-like cells in fetal perirenal tissues.
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PMID:The development of perirenal fat depots in obese and lean pig fetuses. 342 14

The kinetics of inhibition of the esterase and lipase activities of bovine milk lipoprotein lipase (LPL) were compared. The esterase LPL activity against emulsified tributyrylglycerol was not affected by the enzyme activator apolipoprotein C-II (C-II) and amounted to about 15% of the "plus activator" lipase enzyme activity. Heparin at concentrations of 20 micrograms/ml inhibited 25% of the esterase activity. The reaction followed Henri-Michaelis-Menten kinetics and the inhibition by heparin followed a linear, intersecting, noncompetitive kinetic model. On the other hand, the basal lipase activity of LPL against emulsified trioleoylglycerol (TG) was very sensitive to inhibition by heparin: 1 microgram/ml inhibited about 80% of the reaction and 3 micrograms/ml drove the reaction to zero. The velocity curve for the uninhibited basal LPL activity was sigmoidal with an apparent nH(TG) of 2.94. Heparin inhibited the lipase activity competitively: heparin decreased nH(TG) and increased[TG]0.5 6.4-fold, while TG decreased the nH(Heparin) from 2.14 to 0.95 and caused a 3-fold increase in [Heparin]0.5. C-II, at concentrations lower than 2.5 X 10(-8) M (i.e., lower than KA), countered the inhibitory effects of heparin: at constant inhibitor concentrations, C-II increased nH(TG) from 1.78 to 2.52 and decreased [TG]0.5 about 10-fold; it also increased the apparent Vmax. At the lower C-II concentrations, nH(C-II) was approximately equal to 1.0 and increasing the TG concentrations decreased [C-II]0.5 from 3.8 X 10(-8) to 8.5 X 10(-9) M, with no effect on the nH(C-II). At the higher C-II concentrations, nH(C-II) was 2.5 and TG decreased [C-II]0.5 about 2-fold with no effect on the nH(C-II). In the absence of heparin, C-II had no effect on nH(TG) nor on [TG]0.5, but it increased the apparent Vmax. On the other hand, TG had no effect on nH(C-II) nor on [C-II]0.5, but at any given C-II concentration, the reaction velocity increased with increasing TG concentrations. It is concluded that TG and heparin as well as C-II and heparin are mutually exclusive and that lipoprotein lipase is a multisite enzyme, possibly a tetramer, with three high-affinity catalytic sites, and an equal number of sites for C-II and heparin per oligomer. However, LPL differs from classical allosteric enzymes in that its activator has no effect on substrate cooperativity nor on [S]0.5; its only effect is to increase Vmax by increasing the catalytic rate constant kp by inducing conformational changes in the enzyme.
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PMID:The kinetics of heparin inhibition of the esterase and basal lipase activities of lipoprotein lipase. 356 88

In the present study, fetuses were hypophysectomized (hypox) in utero on d 72 to 74 of gestation with an electrical cauterizing needle. One to six successfully hypox fetuses were removed on d 110 of gestation from each of five gilts. Subcutaneous adipose tissue samples and semitendinosus muscles were obtained from the hypox fetuses and an equal number of control fetuses. Body weights of control fetuses (n = 15; mean +/- SE, 1,195 +/- 33 g) were similar to weights of hypox fetuses (n = 15; 1,179 +/- 67 g). Fat cell size in the middle subcutaneous layer of adipose tissue was increased in hypox fetuses (P less than .01) compared with control fetuses. The number of obvious fat cell clusters (outer layer) in lipid stained sections was reduced (P less than .01) by 50% in hypox fetuses. Histochemical reactions for glucose-6-phosphate dehydrogenase, esterase and lipoprotein lipase (LPL) activities in middle layer cell clusters were considerably enhanced in sections from hypox fetuses compared with sections from controls. Quantitative analysis of percent light transmittance (Zeiss photometer) through LPL-stained cell clusters indicated an increase (P less than .001) in LPL staining in sections from hypox fetuses when compared with sections from control fetuses. Transverse muscle sections (cryostat) from hypox fetuses failed to show normal patterns (as seen in control muscles) of reactions for acid ATPase, malate dehydrogenase (NAD-dependent), NADH-TR and alpha-glycerol phosphate dehydrogenase (without NAD). The number of muscle fibers that were stained for these enzymes was greatly reduced in hypox fetuses compared with control fetuses. The number of lipid positive fibers was also reduced in hypox fetuses compared with control fetuses.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Differentiation of adipose tissue and muscle in hypophysectomized pig fetuses. 357 Oct 30

We optimized a commercial turbidimetric method for lipase (EC 3.1.1.3) activity (Boehringer Mannheim Diagnostics) and overcame some of its deficiencies. Increasing the bile salt concentration to 35 mmol/L and the colipase concentration to 6 mg/L and using a continuous recording of the reaction-rate curve greatly improved the reaction kinetics, eliminated false results from increases in absorbance, reduced the lag phase, and increased the analytical sensitivity and accuracy. Differentiation of pancreatitis from nonpancreatitis sera by adding NaCl, 140 mmol/L, to the assay mixture to observe the degree of enzyme activation has important limitations. Sera from patients with pancreatitis and only slight or modest increases in lipase behave like sera from healthy individuals or from patients with nonpancreatic disease. The assay shows no interference by lipoprotein lipase and carboxyl esterase. Results compare well by this optimized method and by an optimized "pH-Stat" titrimetric method.
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PMID:Turbidimetric measurement of lipase activity--problems and some solutions. 362 61

Temporal and spatial patterns of lipid deposition, vascularization and collagen deposition were described for subcutaneous adipose tissue in the fetal pig. Enzyme cytochemical changes were reported as they relate to the morphological differentiation of the subcutaneous depot. There are distinct temporal lags between the appearance of specific enzymes in adipocytes. For example, NADH-tetrazolium reductase activity appeared earliest whereas esterase activity appeared before lipoprotein lipase (LPL) activity. Adipose tissue primordia has been localized around specific tissue components in rat and pig tissues. These tissue components include hair follicles, sweat glands, large nerves, large blood vessels and mammary gland ducts. Lipid and enzyme cytochemistry demonstrates physical continuity between primordial cells and differentiated fat cell clusters. Alterations in maternal and/or fetal endocrine or metabolic profiles result in specific changes in fetal subcutaneous adipocytes. For example, maternal diabetes significantly increases cell size whereas genetic obesity has little effect on cell size but increases cellular LPL activity significantly. A comparison of subcutaneous and perirenal depots in the pig fetus indicated several depot specific anatomical and enzyme histochemical traits. Blood vessel architecture and vascular alkaline phosphatase activity clearly demarcated perirenal and subcutaneous depots in the fetus. These data indicate that site to site variations of adipose tissue characteristics may be reflecting intrinsic stromal-vascular aspects of specific locations.
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PMID:Anatomical and enzyme histochemical differentiation of adipose tissue. 393 90

The lipolytic activities of heart tissue towards full and partial acylglycerols were characterized. Tissue lysosomal, acid lipase activity (pH 4.8) was inhibited by high salt, protamine sulfate, NaF, MgATP, Triton X-100, serum and the esterase-inhibitor diethylparanitrophenyl phosphate. The tissue neutral triacylglycerol lipase activity (pH 7.4) was recovered predominantly in the microsomal and soluble fractions and exhibited essentially identical properties towards activators (serum, apolipoprotein C-II) and reagents (NaCl, Triton X-100, NaF, MgATP and diethylparanitrophenyl phosphate) relative to vascular lipoprotein lipase, except for protamine sulfate which increased the serum-stimulated neutral triacylglycerol lipase activity. Triacylglycerol hydrolysis at acid pH was incomplete, whereas at neutral pH full hydrolysis occurred. Myocardial mono- and diacylglycerol lipase activities, with pH optima of 8.0 and 7.4, respectively, were recovered in the microsomal fraction. They differed immunologically from neutral lipase and lipoprotein lipase and did not bind to heparin-Sepharose 4B. They were kinetically different, partially inhibited by NaCl and differentially affected by protamine sulfate. NaF, Triton X-100 and diethylparanitrophenyl phosphate. Our data suggest that endogenous hydrolytic activity against full and partial acylglycerols is mediated by separate enzymes.
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PMID:Characterization of mono-, di- and triacylglycerol lipase activities in the isolated rat heart. 394 May 38


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