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Enzyme
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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)
The metabolic origins of equine hyperlipaemia were investigated by analysing the concentration and composition of plasma lipoproteins in 18 ponies with the condition. The mean concentrations of cholesterol, triglyceride and very low density lipoproteins (VLDL) were increased by 4-, 52- and 19-fold, respectively, compared with a control group of 18 healthy ponies. These increases were due to the appearance of a buoyant VLDL fraction (VLDL1) not present in healthy ponies. The mean diameter of VLDL1 particles was 44% greater than control VLDL, and the particles were enriched in triglyceride and free cholesterol and depleted of cholesteryl esters, phospholipid and protein. The apolipoprotein (apo) B-100 content of VLDL1 was reduced and the ratio of apoB-100 to apoB-48 particles was 1:1, compared with 2:1 in control VLDL. The VLDL1 was also enriched in apoE, but had normal complements of apoC-II and apoC-III. The conventional VLDL (called VLDL2), LDL and HDL fractions were moderately enriched with triglyceride, and HDL contained increased amounts of apoE, apoC-II and apoC-III. The activities of
lipoprotein lipase
and
hepatic lipase
, the enzymes responsible for the catabolism of VLDL and their remnants, were increased by 2- and 3-fold, respectively, in response to the increased concentrations of their substrates. The composition of VLDL1 suggested that the liver was maximising the secretion of triglyceride by producing larger number of VLDL particles that accommodated a greater mass of triglyceride by having apoB-48 rather than apoB-100 as their structural protein. Plasma free fatty acid (FFA) concentrations were elevated in 17 of the 18 ponies, suggesting that increased FFA flux might be the stimulus for hepatic triglyceride synthesis and VLDL secretion. We conclude that overproduction, rather than defective catabolism, of VLDL was the cause of the hyperlipidaemia and that lipid lowering agents which reduce VLDL synthesis, by decreasing adipose lipolysis and FFA flux, are candidates for the management of hyperlipaemia.
...
PMID:Plasma lipids, lipoproteins and post-heparin lipases in ponies with hyperlipaemia. 139 7
Chimeric molecules between human
lipoprotein lipase
(
LPL
) and rat
hepatic lipase
(HL) were used to identify structural elements responsible for functional differences. Based on the close sequence homology with pancreatic lipase, both
LPL
and HL are believed to have a two-domain structure composed of an amino-terminal (NH2-terminal) domain containing the catalytic Ser-His-Asp triad and a smaller carboxyl-terminal (COOH-terminal) domain. Experiments with chimeric lipases containing the HL NH2-terminal domain and the
LPL
COOH-terminal domain (HL/
LPL
) or the reverse chimera (
LPL
/HL) showed that the NH2-terminal domain is responsible for the catalytic efficiency (Vmax/Km) of these enzymes. Furthermore, it was demonstrated that the stimulation of
LPL
activity by apolipoprotein C-II and the inhibition of activity by 1 M NaCl originate in structural features within the NH2-terminal domain. HL and
LPL
bind to vascular endothelium, presumably by interaction with cell surface heparan sulfate proteoglycans. However, the two enzymes differ significantly in their heparin affinity. Experiments with the chimeric lipases indicated that heparin binding avidity was primarily associated with the COOH-terminal domain. Specifically, both HL and the
LPL
/HL chimera were eluted from immobilized heparin by 0.75 M NaCl, whereas 1.1 M NaCl was required to elute
LPL
and the HL/
LPL
chimera. Finally, HL is more active than
LPL
in the hydrolysis of phospholipid substrates. However, the ratio of phospholipase to neutral lipase activity in both chimeric lipases was enhanced by the presence of the heterologous COOH-terminal domain, demonstrating that this domain strongly influences substrate specificity. The NH2-terminal domain thus controls the kinetic parameters of these lipases, whereas the COOH-terminal domain modulates substrate specificity and heparin binding.
...
PMID:Chimeras of hepatic lipase and lipoprotein lipase. Domain localization of enzyme-specific properties. 140 Apr 61
We have recently reported that the apolipoprotein (apo) B-100-apo(a) complex, the protein moiety of lipoprotein(a) [Lp(a)], has a high affinity for triglyceride(TG)-rich particles (TRP) and that this complex can affiliate with endogenous TG-rich lipoproteins. To shed more light on the apo B-100-apo(a) complex associated with plasma TRP during postprandial lipidemia, we fed five male subjects presenting with primary hypoalphalipoproteinemia (HP) and four male controls a single fat meal (60 g/m2) containing saturated fatty acids (SFA) and, 6 weeks later, an isocaloric meal containing omega-3 polyunsaturated fatty acids. The subjects were phenotyped for plasma Lp(a) and apo C-III levels, apo(a) and apo E isoforms, and
lipoprotein lipase
and
hepatic lipase
activities. Vitamin A was included in the meal as a marker of intestinally derived TRP. Following the SFA meal, three of the HP subjects showed a decrease in plasma levels of Lp(a) that lasted 10 to 12 hours in the presence of an increased hypertriglyceridemic response. Two HP subjects who had low preprandial
lipoprotein lipase
activity and elevated plasma apo C-III levels showed an increase in plasma Lp(a) levels along with the hypertriglyceridemic excursion. However, in all cases, inclusive of the controls, there was an elevation in plasma levels of TRP of Sf greater than 1,000 that contained apo B-100-apo(a) 6 to 8 hours after the meal. This TRP excursion appeared not to be related to the basal levels of plasma Lp(a), high-density lipoprotein (HDL) cholesterol, TGs, or apo(a) and apo E isoforms, and it did not coincide with the retinyl ester peak.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Postprandial lipoprotein(a) response to a single meal containing either saturated or omega-3 polyunsaturated fatty acids in subjects with hypoalphalipoproteinemia. 146 Nov 42
Post-prandial lipaemia was investigated in a group of nine subjects with nephrotic syndrome by following the concentrations of triglyceride and retinyl palmitate in the d < 1.006 g ml-1 fraction of plasma after a standard oral fat load containing vitamin A. Lipoprotein lipase and
hepatic triglyceride lipase
activities were measured in post-heparin plasma. Subjects with other renal disease but insignificant proteinuria acted as controls. The time course of the lipaemic response was similar in both groups although individual patients demonstrated a prolonged lipaemia. Overall, there were no significant differences in the rise in triglyceride at 6 h (nephrotic--median 2.53 mmol l-1; range 0.87-4.76 vs. control 1.88; 0.38-4.12, P = 0.34), the peak concentration of retinyl palmitate (nephrotic 0.87 mg dl-1; 0.27-2.16 vs. control 0.65; 0.24-1.89, P = 0.97) or the areas under the curve from 0-24 h for triglyceride (nephrotic 10.5 mmol. h l-1; 2.9-43.6 vs. control 9.7; 4.3-27.0, P = 1.0) or retinyl palmitate (5.5 mg.h dl-1; 1.0-23.4 vs. 4.3; 1.5-12.4, P = 0.7). At baseline, the particles in the d < 1.006 g ml-1 fraction of plasma from nephrotic subjects had a higher free cholesterol:phospholipid ratio but this difference was no longer apparent 6 h after the test meal. There were no differences in total heparin-releasable lipase,
lipoprotein lipase
or
hepatic triglyceride lipase
activities between the two groups. These data suggest that impaired clearance of chylomicrons is not a major contributor to nephrotic hyperlipidaemia in man.
...
PMID:Post-prandial lipoprotein metabolism in nephrotic syndrome. 147 53
Heparin and heparin partially depolymerized by enzymic digestion were separated into six size fractions. Hep 1 (tetrasaccharides), with a mean M(r) of 1200, did not release significant amounts of either
lipoprotein lipase
(
LPL
) or
hepatic lipase
(HL) on intravenous injection into rats. Hep 2 (mainly octa- and deca-saccharides), with a mean M(r) of 2400-3000, released both lipases. To evoke the same plasma activity of
LPL
and HL required about 10 times more by weight, or about 40 times more molecules, of this heparin than of hep 5 (mean M(r) 12,000, similar to conventional heparin). Hep 5 impeded binding and degradation of 125I-labelled bovine
LPL
by perfused rat livers. In contrast, hep 2 had no detectable effect on these processes. This demonstrates a difference between the sites in the liver that mediate binding, uptake and degradation of
LPL
, and the extrahepatic sites that bind functional
LPL
, and the hepatic sites that bind functional HL. After injection of 3.25 mg of hep 5/kg body weight, plasma
LPL
activity rapidly rose and then remained high for at least 1 h. With hep 2, plasma
LPL
also rose rapidly, but then decreased to almost basal by 1 h. When a labelled triacylglycerol emulsion was injected 1 h after the heparins, the fractional catabolic rate was enhanced in the rats that had received conventional heparin, as expected from the high plasma
LPL
activity, but decreased compared with controls in rats that had received hep 2, indicating that available
LPL
had been depleted through enhanced transport to and uptake in the liver.
...
PMID:Interaction of size-fractionated heparins with lipoprotein lipase and hepatic lipase in the rat. 149 11
We measured lipoproteins, apolipoproteins,
lipoprotein lipase
(
LPL
),
hepatic triglyceride lipase
(
HTGL
), lecithin: cholesterol acyltransferase (LCAT) and parameters of calcium metabolism to evaluate the roles of these enzymes and hypertriglyceridemia for impaired high-density lipoprotein (HDL) metabolism in chronic renal failure, and to examine the impact of altered calcium homeostasis on the lipoprotein-regulating enzymes. The subjects were 25 healthy volunteers and 66 uremic patients, 24 treated with hemodialysis (HD) and 42 with continuous ambulatory peritoneal dialysis (CAPD). Lipoprotein analysis revealed: (1) reduction in HDL cholesterol especially in HDL2 subfraction; (2) increase in HDL triglyceride; and (3) decreased ratio of HDL2 cholesterol to HDL3 cholesterol in both HD and CAPD patients. Simple regression analysis showed: (1) a positive correlation between VLDL triglyceride and triglyceride/cholesterol ratio of HDL; (2) positive correlations of
LPL
level in post-heparin plasma to cholesterol concentrations in HDL2, HDL3 and total HDL, and to apolipoproteins A-I and A-II; and (3) inverse correlations of
HTGL
to HDL2 cholesterol and to the ratio of HDL2 cholesterol/HDL3 cholesterol. Multiple regression analysis of HDL cholesterol indicated positive association with
LPL
and inverse correlation with VLDL triglyceride. Four variables including
LPL
,
HTGL
, LCAT and VLDL triglyceride explained 51.5% of the variation of HDL cholesterol. HDL2 cholesterol was associated positively with
LPL
and negatively with VLDL triglyceride in the model. HDL3 cholesterol was associated positively with
LPL
,
HTGL
and LCAT and inversely with VLDL triglyceride. Stepwise multiple regression analysis indicated that independent predictors of
HTGL
were gender, parathyroid hormone levels by a mid-portion assay, ionized calcium and age, and that those of LCAT were ionized calcium and age.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Impaired metabolism of high density lipoprotein in uremic patients. 150 22
Lipoprotein lipase (LPL),
hepatic lipase
, and pancreatic lipase show high sequence homology to one another. The crystal structure of pancreatic lipase suggests that it contains a trypsin-like Asp-His-Ser catalytic triad at the active center, which is shielded by a disulfide bridge-bounded surface loop that must be repositioned before the substrate can gain access to the catalytic residues. By sequence alignment, the homologous catalytic triad in LPL corresponds to Asp156-His241-Ser132, absolutely conserved residues, and the homologous surface loop to residues 217-238, a poorly conserved region. To verify these assignments, we expressed in vitro wild-type LPL and mutant LPLs having single amino acid mutations involving residue Asp156 (to His, Ser, Asn, Ala, Glu, or Gly), His241 (to Asn, Ala, Arg, Gln, or Trp), or Ser132 (to Gly, Ala, Thu, or Asp) individually. All 15 mutant LPLs were totally devoid of enzyme activity, while wild-type LPL and other mutant LPLs containing substitutions in other positions were fully active. We further replaced the 22-residue LPL loop which shields the catalytic center either partially (replacing 6 of 22 residues) or completely with the corresponding
hepatic lipase
loop. The partial loop-replacement chimeric LPL was found to be fully active, and the complete loop-replacement mutant had approximately 60% activity, although the primary sequence of the
hepatic lipase
loop is quite different. In contrast, replacement with the pancreatic lipase loop completely inactivated the enzyme. Our results are consistent with Asp156-His241-Ser132 being the catalytic triad in
lipoprotein lipase
.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Functional topology of a surface loop shielding the catalytic center in lipoprotein lipase. 151 Sep 14
Affinity chromatography on heparin sepharose was used to identify 2 lipolytic enzymes in heparinized plasma from horses. One enzyme was typical of
hepatic triglyceride lipase
(
HTGL
), because it was resistant to inactivation by high concentrations of NaCl, and it did not require the addition of serum for activity. The other enzyme was identified as
lipoprotein lipase
(
LPL
), because of its inactivation at NaCl concentrations in excess of 0.2M, and its dependency on addition of serum as a source of apolipoprotein C-II activator. The enzymes were purified by 347-(
HTGL
) and 442- (
LPL
) fold, with yields of 54 and 58%, respectively. The partially purified enzymes were used to design incubation conditions that gave optimal activities for each enzyme in vitro. A selective assay was then developed for direct measurement of
LPL
and
HTGL
activities in heparinized plasma from horses. Analysis of
HTGL
took advantage of the almost complete inactivation of
LPL
when serum cofactor was excluded from the assay at the NaCl concentration that gave optimal
HTGL
activity. Prior incubation of heparinized plasma with sodium dodecyl sulfate to inhibit
HTGL
was necessary for measurement of
LPL
, because
HTGL
retained 67% of its activity at the NaCl concentration required for optimal
LPL
activity. Activity of each enzyme was measured in heparinized plasma from 12 Shetland ponies. The mean activity +/- SD for
LPL
was 3.22 +/- 1.04 mumol of fatty acids/ml of heparinized plasma/h (mumol of FA/ml/h. The mean activity for
HTGL
was 4.9 +/- 1.56 mumol of FA/ml/h. The performance of the assay was assessed by replicate analysis of pools of each enzyme with high and low activities.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Selective measurement of lipoprotein lipase and hepatic triglyceride lipase in heparinized plasma from horses. 152 5
This study was conducted to investigate acute effects of smoking on platelet function, endothelial cells and plasma lipids and to follow these parameters after Aspirin ingestion. Twelve fasting smokers each inhaled the smoke of one cigarette. Blood was drawn before and 10 min after smoking. Plasma nicotine, measured by gas chromatography, increased from 13.48 before smoking to 78.41 nM after smoking. Platelet aggregation to thrombin and ADP increased significantly (P less than 0.001). The platelet aggregate ratio decreased from 0.95 to 0.75 (P less than 0.005). Plasma beta-thromboglobulin also increased in post-smoking samples as measured using radioimmunoassay. 'Circulating endothelial cells' increased significantly after smoking (P less than 0.005). Triglycerides decreased (P less than 0.005) in plasma and in the VLDL fraction (P less than 0.05). Both post-smoking plasma free fatty acids and free glycerol increased, respectively, as compared with respective values. Lipase activity ascribable to
lipoprotein lipase
and
hepatic lipase
, absent in pre-smoking plasma samples, could be detected in post-smoking plasma without heparin injection. At least 1 week later, the subjects returned to follow an identical protocol except that they had ingested Aspirin (650 mg) 10-14 h before blood sampling. The same parameters were measured before and after smoking the same cigarette. Except for plasma nicotine, all the smoking-induced changes were abolished by ingestion of Aspirin. The results of this study indicate an interrelationship between platelet hyperactivity, endothelial injury and plasma lipids. They also demonstrate an inhibition of the major smoking-induced changes by Aspirin in the presence of high plasma nicotine levels. It is concluded that Aspirin may offset several of the deleterious acute effects of smoking. However, our conclusions cannot be, in any way, extended for long-term effects of both smoking and Aspirin treatment. Based on these data, it is suggested that there may be some links between platelet hyperactivity, endothelium injury and plasma lipids.
...
PMID:Acute influence of smoking on platelet behaviour, endothelium and plasma lipids and normalization by aspirin. 146 56
Inhibitors of 3-hydroxy-3-methyl glutaryl coenzyme A (HMG-CoA) reductase have been approved for treatment of hypercholesterolemia in humans. This class of therapeutic agents, in addition to lowering plasma cholesterol, reduces plasma triglyceride levels. We have investigated the mechanism of triglyceride-lowering effect of lovastatin in the hypertriglyceridemic state by using a rodent model of hypertriglyceridemia and obesity, the Zucker obese (fa/fa) rat. Lovastatin treatment (4 mg/kg), as compared to placebo, caused a 338% reduction in plasma triglyceride (146 +/- 5 vs. 494 +/- 76 mg/dl), a 58% decrease in total cholesterol (99 +/- 13 vs. 156 +/- 18 mg/dl), and a 67% reduction in high density lipoprotein (HDL)-cholesterol (69 +/- 8 vs. 115 +/- 15 mg/dl). The fall seen in plasma triglyceride was due to a decrease in hepatic secretion of very low density lipoproteins (VLDL), determined after blocking the clearance of triglyceride-rich lipoproteins with Triton WR-1339. Lovastatin treatment did not affect either the activities of hepatic lipogenic enzymes, glucose-6-phosphate dehydrogenase, or malic enzyme, or the activities of the lipolytic enzymes of adipose tissue,
lipoprotein lipase
, or liver,
hepatic triglyceride lipase
. Supplementation of mevalonolactone in the diet partially reversed the changes in plasma triglyceride (265 +/- 37 vs. 146 +/- 5 mg/dl), but not in total or HDL-cholesterol. These data demonstrate that, in the hypertriglyceridemic Zucker rat model, HMG-CoA reductase inhibitors reduce the rate of secretion of VLDL and this effect can be partially reversed by administration of mevalonolactone.
...
PMID:Mechanisms of triglyceride-lowering effect of an HMG-CoA reductase inhibitor in a hypertriglyceridemic animal model, the Zucker obese rat. 155 26
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