EC:3.1.1.34 - FACTA Search

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)

An antibody to a highly pure enzyme preparation was developed to facilitate detailed studies of rat adipose tissue lipoprotein lipase regulation. Lipoprotein lipase was purified by heparin-Sepharose affinity chromatography followed by preparative isoelectric focusing. The enzyme migrated as a single broad band on SDS disc gel and two-dimensional gel electrophoresis with an apparent molecular mass of 67 000 and 62 000 Da, respectively. The amino acid composition of the purified rat enzyme was virtually identical to that of bovine milk. A major protein component with no lipase activity co-eluted with the enzyme from the affinity column, but was separated by the isoelectric focusing step. The molecular mass was slightly lower (58 000 Da) but the amino acid composition of this protein was similar to that of the enzyme. An antibody raised against the purified rat enzyme was highly potent and was effective in inhibiting rat heart lipoprotein lipase, but not the salt-resistant hepatic lipase. Analysis of crude acetone-ether adipose tissue preparation on SDS slab polyacrylamide gel coupled to Western blotting revealed five protein bands = (62 000, 56 000, 41 700, 22 500, 20 000 Da). Similarly, following affinity purification by immunoadsorption, the purified antibody reacted with five equivalent protein bands. Fluorescent concanavalin A binding data indicated that the 56 kDa band is a glycosylated form of lipoprotein lipase. Pretreatment of adipose tissue with proteinase inhibitors revealed that the lower molecular mass proteins (41 700 and 20 000 Da) were degradation products of lipoprotein lipase, and the 22 500 Da band could be accounted for by non-specific binding.
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PMID:Characterization of rat adipose tissue lipoprotein lipase using a monospecific antibody. 370 76

It was recently noted that newborn mice have much higher lipase activity in plasma than rats or humans, and that most of the activity is due to an enzyme related to the hepatic (heparin-releasable) lipase. Here we report that this lipase is present in plasma of adult mice also. In contrast to the high activity of hepatic lipase, the activity of lipoprotein lipase in plasma was low and similar to that in rats. The source of the plasma lipase was probably the liver, since we could not demonstrate hepatic lipase-like activity in any other organ. When human hepatic lipase was injected into mice, it rapidly disappeared from plasma. Most of the injected lipase located in the liver, and could be released back into circulation by injection of heparin. These results indicate that there are binding sites for hepatic lipase in mouse liver, and suggest that mouse hepatic lipase has an affinity for these sites which is lower than usual. It is currently believed that the endothelial acceptors are heparan-sulfate or similar molecules. Mouse hepatic lipase eluted from heparin-Sepharose at lower salt concentration than rat or human hepatic lipase, demonstrating that it has a relatively low affinity for heparin-like polysaccharides.
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PMID:Mouse preheparin plasma contains high levels of hepatic lipase with low affinity for heparin. 373 Apr 15

The effects of infant diet (breast milk or formula containing 2, 30 or 60 mg/dl cholesterol) and subsequent dietary cholesterol (0.02, 1.0 or 1.7 mg/kcal) and fat (saturated or unsaturated) on heparin-releasable lipolytic activity from omental adipose tissue was estimated from 99 baboons of 5-8 years of age. This lipase activity was characterized as lipoprotein lipase based on salt inhibition and apolipoprotein C-II activation. Lipoprotein lipase activity released from adipose tissue by heparin was significantly (P less than 0.002) lower in high cholesterol-fed baboons than in those fed low cholesterol. Most of this difference was due to impaired long-term heparin release of lipoprotein lipase. Adipose tissue lipoprotein lipase increased with increasing fat cell size regardless of diet, but there was no effect of diet on adipocyte size. There were no significant effects of infant cholesterol intake nor adult saturated or unsaturated fat on lipoprotein lipase activity. Adult baboons breast fed as infants had lower adipose tissue lipoprotein lipase activity (P less than 0.07) than adults fed formula as infants.
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PMID:Effects of dietary cholesterol on adipose tissue lipoprotein lipase in the baboon. 376 86

Studies were designed to explore the association of lipoprotein lipase (LPL) and hepatic triglyceride lipase (HTGL) activities with lipoproteins in human postheparin plasma (PHP). The major peak of LPL activity after gel filtration of PHP eluted after the triglyceride-rich lipoproteins and just before the peak of low density lipoprotein (LDL) cholesterol. When PHP contained chylomicrons, an additional peak of LPL activity eluted in the void volume of the column. Most HTGL activity eluted after the LDL and preceded the elution of high density lipoprotein cholesterol. LPL activity in preheparin plasma eluted in the same position, relative to lipoproteins, as did LPL in PHP. Gel filtration of purified human milk LPL mixed with plasma or isolated LDL produced a peak of activity eluting before LDL. During gel filtration of PHP in high salt buffer (1 M NaCl) or after isolation of lipoproteins by ultracentrifugation in high salt density solutions, most of the lipase activity was not associated with lipoproteins. LPL activity was removed from PHP by elution through immunoaffinity columns containing antibodies to apolipoprotein (apo) B and apo E. Since lipoproteins in PHP have undergone prior in vivo lipolysis, LPL activity in PHP may be bound to remnants of chylomicrons and very low density lipoproteins.
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PMID:Association of plasma lipoproteins with postheparin lipase activities. 378 69

This study examined the diurnal and within-feed variations in the two lipases of human milk, bile-salt-stimulated lipase (BSSL) and lipoprotein lipase (LPL). In addition, all milks were also analyzed for triglyceride content. As compared to BSSL, LPL activity was more variable both among mothers and among different samples from the same mother (largest variation, 0-2.8 U/ml milk). The only significant variation in lipase activity was in LPL activity during a 24-h period (0.96 +/- 0.113, 0.52 +/- 0.21, and 0.57 +/- 0.092 U/ml milk at 0801-1600, 0001-0800, and 1601-2400 h, respectively) (p less than 0.05). Triglyceride content showed no significant diurnal variation but did increase significantly during a single feeding (31 +/- 9.4, 52 +/- 11.7, and 72 +/- 14.8, mumoles triglyceride/ml milk for fore-, mid-, and hind-milks, respectively) (p less than 0.05). There was no correlation between either LPL or BSSL activity and triglyceride content of the milks. Our data indicate that milk obtained for banking or research purposes will contain similar levels of BSSL activity irrespective of diurnal or within-feed timing of milk collections.
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PMID:Diurnal and within-feed variations in lipase activity and triglyceride content of human milk. 379 15

We have determined the size of the functional unit of bovine lipoprotein lipase by radiation inactivation. This was done in five different situations: 1) in a buffer with high salt concentration. In this situation the enzyme is relatively soluble and stable. 2) For an enzyme-heparin complex. This may reflect the physiological state of the enzyme at the vascular endothelium, where it is believed to be bound to a heparin-like molecule. 3) In the presence of lipid substrate and 4) with lipid substrate and activator protein. Here most of the enzyme is adsorbed to the substrate droplets. 5) For an enzyme-detergent complex; another model for enzyme-lipid interaction. In all five situations the enzyme activity decayed as an exponential function of radiation dose, and the target sizes were similar. The target size did not vary with the concentration of lipase protein. The combined data for bovine lipoprotein lipase yield a functional size of 72 kDa which is close to that expected for a dimer, 77 kDa.
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PMID:Molecular size of bovine lipoprotein lipase as determined by radiation inactivation. 388 85

To facilitate detailed studies of rat adipose tissue lipoprotein lipase regulation, a high titre polyclonal antibody was raised against purified rat adipose tissue lipoprotein lipase (in a goat). The first stage of the purification of the lipoprotein lipase was carried out with heparin-Sepharose affinity chromatography. In the second stage we took advantage of the binding property of lipoprotein lipase to ampholytes. These ampholytes, used during this second step, do not have to be eliminated prior to injecting the enzyme preparation into the animal. They have neither toxic nor antigenic effects on the animal; moreover, their presence does not affect the antigenic potency of the lipoprotein lipase. When pre-incubated with a constant amount of adipose tissue lipoprotein lipase (8 mU/75 microliter), an equal volume of the antiserum raised either pure or diluted up to 1/50 resulted in complete inhibition of enzyme activity, and half maximal inhibition was observed at a dilution of 1/800. The antibody was effective in inhibiting rat heart lipoprotein lipase but not salt-resistant hepatic lipase. Immunodiffusion revealed a single line of precipitation between this antibody and the adipose tissue lipoprotein lipase.
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PMID:Antibody against rat adipose tissue lipoprotein lipase. 391 73

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

Killing of Giardia lamblia by fresh human milk requires the presence of bile salt, a known activator of bile salt-stimulated lipase, the major lipase in human milk. Purified enzyme did not kill the parasite even in the presence of activator unless milk lipids were also present in the reaction mixture. Free fatty acids had a marked giardiacidal effect, a phenomenon supporting the view that fatty acids, released during hydrolysis of milk triglycerides, are responsible for the killing of G. lamblia by human milk. Bile salt-independent lipolysis took place in milk during storage at 4 C. This lipolysis correlated strongly with activity of lipoprotein lipase, also present in human milk. During such storage, raw human as well as bovine milk developed giardiacidal activity that could be prevented by inactivation or inhibition of the milk lipases by pasteurization or addition of eserine to the milk, respectively, before storage.
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PMID:Killing of Giardia lamblia by human milk lipases: an effect mediated by lipolysis of milk lipids. 395 Apr 50

Combined lipase deficiency (cld/cld) is a recessive mutation in mice which results in massive hyperlipemia and death within 3 days after birth. We studied the effect of this deficiency on lipolytic activities in liver and in pre- and postheparin plasma of mice less than 2 days old. Anti-hepatic lipase serum inhibited more than 85% of the lipolytic activity in liver and plasma of normal newborn mice when assayed in high-salt medium, validating the use of this medium for measuring hepatic lipase activity in mice. Anti-lipoprotein lipase serum, in contrast, inhibited only two-thirds of the lipolytic activity in liver and plasma when assayed in serum low-salt medium, and anti-hepatic lipase serum inhibited the rest. This indicates that assay with serum low-salt medium alone is not specific for lipoprotein lipase activity in mice. Therefore, immunoinhibition was used, as needed, for measuring lipoprotein lipase activity. The livers of unaffected newborn mice contained high levels of both hepatic and lipoprotein lipase activities, 228 and 187 mU/g, respectively. The plasma of unaffected mice contained a high level of hepatic lipase activity, 244 mU/ml, but practically no lipoprotein lipase activity. Heparin injected intraperitoneally increased plasma lipoprotein lipase activity to 152 mU/ml, but had no effect on plasma hepatic lipase activity, in unaffected mice. Hepatic lipase activity was virtually absent from both liver and plasma of cld/cld mice. Lipoprotein lipase activity was present in the liver at a surprisingly high level, 40% of that in normals, but was barely detectable in plasma. Heparin injection increased plasma lipoprotein lipase activity in cld/cld mice, but the increment was less than 10% of that in unaffected mice. Heparin had no significant effect on plasma hepatic lipase activity in defective mice. These findings confirm preliminary observations that hepatic lipase activity in liver and plasma and lipoprotein lipase activity in plasma are markedly reduced in combined lipase deficiency. The unexpected high level of lipoprotein lipase activity in liver of cld/cld mice suggests that regulation of lipoprotein lipase activity in liver of neonatal mice is different from that in other tissues.
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PMID:Effect of combined lipase deficiency (cld/cld) on hepatic and lipoprotein lipase activities in liver and plasma of newborn mice. 395 63

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