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)

Familial combined hyperlipidemia (FCHL) is a dominantly inherited hyperlipidemia that occurs in at least 1% of the adult population and is responsible for 10% of premature coronary artery disease. In families referred for evaluation because of primary hyperlipidemia in a child, FCHL is expressed three times more commonly than familial hypercholesterolemia and half of the siblings are affected. Several metabolic defects apparently are associated with the FCHL phenotype. Most commonly, excess production of very low density lipoprotein apolipoprotein B can be demonstrated. In other families, reduced lipoprotein lipase activity is associated. One allele at a locus influencing apolipoprotein B levels predicts FCHL in a large proportion of families ascertained through affected children. Whether this allele is responsible for the excess of very low density lipoprotein apolipoprotein B detected in metabolic studies has not been elucidated. Management of FCHL in children begins with dietary modification. A bile acid sequestrant may be considered as well if diet cannot reduce the plasma low-density lipoprotein cholesterol level to less than 4.13 mmol/L (160 mg/dl) after the age of 10 years. Although the hydroxymethylglutaryl-coenzyme A reductase inhibitors are not currently recommended for children younger than 19 years of age, we speculate that they will be increasingly utilized for the management of FCHL in teenage boys who continue to have low density lipoprotein cholesterol levels greater than 4.13 mmol/L (160 mg/dl) after dietary modification.
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PMID:Familial combined hyperlipidemia in children: clinical expression, metabolic defects, and management. 834 11

Familial hypercholesterolemia is a disorder of lipid metabolism associated with a highly increased risk for cardiovascular disease. Since in such patients even combined drug therapy often fails to decrease low-density lipoprotein (LDL) cholesterol levels sufficiently, extracorporeal LDL elimination has been developed. We treated eight adult patients with LDL immunoadsorption using antibodies against apolipoprotein B without additional lipid-lowering drug therapy for 3 years; this procedure was performed at weekly intervals. By one treatment session, LDL cholesterol and lipoprotein(a) levels were decreased by 55%. Under regular treatment, mean LDL cholesterol levels of 165 mg/dL between two consecutive treatment sessions could be reached, compared with 522 +/- 24 mg/dL before any treatment. As high-density lipoprotein (HDL) cholesterol levels increased under regular treatment, the LDL/HDL cholesterol ratio decreased from 13.4 to 3.4. Positive influences on plasma and whole-blood viscosity as well as on erythrocyte aggregation also seem to be beneficial with regard to retarding atherosclerosis. Very-low-density lipoprotein (VLDL) levels were reduced by approximately 50% after treatment, accompanied by a marked increase of lipoprotein lipase (LPL) and hepatic triglyceride lipase (HTGL) activity. The effects of LDL apheresis on hemostasis, complement activation transport proteins, and hematological parameters were found to be small. In addition, no side effects amounting to any major clinical relevance occurred in any of the patients. After 3 years of LDL apheresis, a decrease in the frequency of anginal chest pain and ST segment depression on exercise testing and a marked reduction of tendon xanthoma size were observed.
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PMID:Three-year treatment of familial heterozygous hypercholesterolemia by extracorporeal low-density lipoprotein immunoadsorption with polyclonal apolipoprotein B antibodies. 834 99

Long-term (1 y) effects of dietary fat intake on lipoprotein metabolism were determined in 72 healthy women receiving either a 15%-fat diet (n = 34) or usual diet (n = 38). Every three months food records, weight, waist-hip ratio (W:H), percent body fat, fasting plasma triglyceride, cholesterol (C), high-density-lipoprotein cholesterol (HDL-C), HDL2-C, and HDL3-C; apolipoprotein B and A-I, and postheparin lipoprotein lipase (LPL) and hepatic triglyceride lipase activities were determined. In one year, the low-fat-diet (LFD) group had 17% and the non-intervention-diet group had 36% dietary fat. The LFD group showed decreases in cholesterol: 7% TC, 13% low-density lipoprotein (LDL), and 8% HDL. Apolipoprotein A-I, decreased early. Apolipoprotein B did not change. Plasma triglyceride correlated with weight. Percent body fat and W:H correlated with the total and LDL-C. Changes in HDL-C and/or HDL2-C and LPL correlated directly with the changes in dietary fat and inversely with dietary carbohydrate. Changes in total-C or LDL-C correlated with the changes in weight and W:H, but not with the changes in nutrient intake.
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PMID:Dietary and anthropometric determinants of plasma lipoproteins during a long-term low-fat diet in healthy women. 842 82

The metabolism of apolipoprotein B-100 was studied in three patients with familial hyperchylomicronemia (type I hyperlipoproteinemia) using a very low density lipoprotein (VLDL) dual-tracer technique. Radioiodinated VLDL1 (Sf 60-400) and VLDL2 (Sf 20-60) were injected and their catabolism and rate of the transfer of apoB into VLDL2, intermediate density lipoprotein (IDL) (Sf 12-20), and low density lipoprotein (LDL) (Sf 0-12) were compared in patients and in five normolipidemic controls. The rates of delipidation of large triglyceride-rich VLDL1 to VLDL2 (0.26-0.54 pools/day vs. 2.5-5.2 pools/day in controls) and VLDL1 direct catabolism (0.33-0.92 pools/day vs. 4.2-14.7 pools/day in controls) were found to be significantly reduced in type I patients resulting in a tenfold increase of VLDL1 pool size. ApoB synthesis into this density interval was, however, normal as was that into smaller VLDL2. the circulating apoB mass in VLDL2 was not increased. In fact, apart from a modest decrease in the rate of VLDL2 delipidation to IDL and LDL, the behavior of apoB in this density interval was similar in hyperchylomicronemic and normal subjects. Likewise, the transfer of apoB through the IDL and LDL density ranges was not significantly different from normal. Pool sizes of these fractions, however, were reduced, the latter significantly (354-491 mg vs. 1,160-2,505 mg in controls) due to increased direct catabolism in hyperchylomicronemic patients. The results of this study indicate that lipoprotein lipase deficiency primarily affects VLDL1 metabolism, both its delipidation and direct removal from plasma. Lipolysis further down the delipidation cascade is not dependent on this enzyme. Hypercatabolism rather than a failure of synthesis of IDL and LDL was responsible for the decreased pools for both lipoproteins.
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PMID:Metabolism of apoB-100-containing lipoproteins in familial hyperchylomicronemia. 844 39

Glycogen storage disease type I (GSD-I) is frequently complicated by severe hyperlipoproteinemia and the increased potential risk of premature atherosclerosis. The effects of fish-oil supplementation [MaxEPA, 10 g.(1.73 m2)-1 for 3 mo] were investigated prospectively in seven hyperlipoproteinemic patients with GSD-I. Hypertriglyceridemia and hypercholesterolemia improved after 3 mo of fish-oil treatment, decreasing 49% (P < 0.005) and 23%, respectively. This was accompanied by a reduction in both low-density-lipoprotein (LDL) cholesterol (25%, P < 0.03) and apolipoprotein B (40%) and by increased high-density-lipoprotein increased (HDL) cholesterol (30%, P < 0.002) and apolipoprotein A-I (31%, P < 0.05). Low pretreatment ratios of HDL to total cholesterol and HDL to LDL, indicators of elevated atherosclerosis risk, increased significantly (P < 0.05). Plasma lipoprotein profile as well as lipoprotein composition [triglyceride (TG) enrichment and cholesteryl depletion] improved. Reduced TG concentrations were due to enhanced fat catabolism, as evidenced by the significantly increased hepatic and extrahepatic lipoprotein lipase activity (P < 0.05). Withdrawal of fish oil for 3 mo was associated with a return to pretreatment abnormalities in plasma lipids and lipoproteins. Fish-oil supplementation thus improves the hyperlipoproteinemia in GSD-I and may significantly reduce the risk of premature atherosclerotic cardiovascular disease.
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PMID:Beneficial effects of fish-oil supplements on lipids, lipoproteins, and lipoprotein lipase in patients with glycogen storage disease type I. 850 63

The binding of lipoprotein lipase (LPL) to different lipoproteins and to a lipid emulsion was studied. After incubating the same amount of 125I-labelled LPL with VLDL, LDL or a lipid emulsion containing no apolipoproteins, we separated the free enzyme from the lipoprotein-bound LPL by gel filtration and by lipoprotein precipitation with phosphotungstic acid. By the former method we observed that all these types of lipid particles bound LPL indicating that the lipid moiety accounts for the LPL-lipoprotein interaction. This binding of LPL to lipoproteins was disrupted by high salt concentrations. When balanced by the apolipoprotein B content, it was observed that a significantly higher amount of 125I-labelled LPL co-eluted with VLDL than with LDL in gel permeation. The Kd values for binding of LPL to lipoproteins were estimated by use of lipoprotein precipitation. The obtained Kd values, both in the absence and in the presence of human lipoprotein deficient serum, were lower for VLDL than for LDL indicating a higher affinity of LPL for VLDL than for LDL. We finally compared binding capacity of LPL to VLDL subfractions with different apo E content. For this, we used apo E-poor (VLDL-B) and apo E-rich (VLDL-D) subfractions separated by heparin-Sepharose chromatography. We found that 125I-labelled LPL co-eluted to a similar extent with both subfractions on gel filtration, and the estimated Kd values from lipoprotein precipitation were not statistically different. Taken together, our results indicate that the lipid moiety, probably the phospholipids, accounts for the LPL-lipoprotein interaction; differences in size, the presence of C apolipoproteins or the conformation of apo B may be responsible for the higher affinity of LPL for VLDL than for LDL herein observed.
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PMID:Binding of lipoprotein lipase to apolipoprotein B-containing lipoproteins. 855 65

Native and oxidized low density lipoprotein retention within arterial wall endothelial cell matrix (ECM) is an early event in the pathogenesis of atherosclerosis. Previously we showed lipoprotein lipase (LPL) addition to ECM enhanced the retention of apoB-containing lipoproteins. In the present studies we examined whether the oxidation of low density lipoprotein (LDL) increases its retention by LPL-containing ECM. Except where noted, 125I-labeled moderately oxidized LDL (ModOxLDL) was prepared by long term storage of 125I-LDL. Without LPL, 125I-ModOxLDL matrix binding was low and nonsaturable. LPL preanchored to ECM resulted in 125I-ModOxLDL binding that was saturable and 20-fold greater than in the absence of LPL, with an association constant equal to 2.6 nM. Copper-oxidized LDL (Cu-OxLDL) was able to compete with 125I-ModOxLDL, whereas a 60-fold native LDL excess had no effect. Reconstituted apolipoprotein B from Cu-OxLDL also reduced 125I-ModOxLDL to LPL, whereas liposomes derived from the lipid extract of Cu-OxLDL had no effect on binding. These data suggest that the increased binding of oxidized LDL to LPL-ECM may be due to the exposure of novel apoB binding sites and not an oxidized lipid moiety. 125I-ModOxLDL binding was also not affected by either preincubation with a 300-fold molar excess of apoE-poor HDL or an 340-fold molar excess of Cu-Ox-HDL. In contrast, a 4-fold apoE-rich HDL excess (based on protein) totally inhibited 125I-ModOxLDL matrix retention. Positively charged peptides of polyarginine mimicked the effect of apoE-rich HDL in reducing the 125I-ModOxLDL retention; however, polylysine had no effect. We postulate that the oxidation of LDL may be a mechanism that enhances LDL retention by the ECM-bound LPL and that the protective effects of apoE-containing HDL may in part be due to its ability to block the retention of oxidized LDL in vivo.
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PMID:Oxidation of low density lipoproteins greatly enhances their association with lipoprotein lipase anchored to endothelial cell matrix. 857 20

A crossover study was conducted to examine the effects on plasma lipoprotein concentrations of substituting lean white fish (LWF) for beef, port, veal, eggs, and milk products (BPVEM) within prudent isoenergetic diets. Fourteen premenopausal women received 8784 kJ--20% as protein, 50% as carbohydrates, and 30% as lipids [ratio of polyunsaturated to monounsaturated to saturated fatty acids (P:M:S) of 1:1:1 compared with 0.4:1:1 in preexperimental diet]--and 260 mg cholesterol/d. After 4 wk, the BPVEM diet significantly reduced concentrations of plasma cholesterol, low-density-lipoprotein (LDL) cholesterol, high-density-lipoprotein (HDL) cholesterol, apolipoprotein B, HDL-apolipoprotein A-I, and LDL-apolipoprotein B (P<0.05) as well as plasma postheparin hepatic triacylglycerol lipase activity compared with the preexperimental diet. These effects are probably attributable to elevation of the P:M:S. These responses were not observed with the LWF diet, suggesting that fish protein in LWF maintains unchanged plasma cholesterol concentrations despite a high P:M:S. The LWF diet, compared with the preexperimental diet, reduced very-low-density-lipoprotein triacylglycerol (P<0.05) and also the ratio of LDL cholesterol to apolipoprotein B (P<0.05), revealing the presence of denser LDL particles. Compared with the BPVEM diet, the LWF diet induced lower concentrations of very-low-density-lipoprotein triacylglycerols (P<0.05) and higher concentrations of LDL triacylglycerol and LDL apolipoprotein B (P<0.05), which were not associated with any increase in lipoprotein lipase activity. These results suggest that LWF as a substitute for BPVEM in isoenergetic diets with an elevated P:S produces minimal improvement in the lipoprotein profile in premenopausal women.
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PMID:Plasma lipoprotein profile and lipolytic activities in response to the substitution of lean white fish for other animal protein sources in premenopausal women. 860 86

Very-low-density lipoprotein (VLDL) from 10 hemodialysis patients and 10 healthy controls was studied with respect to the substrate characteristics for bovine milk lipoprotein lipase (LPL). Compared with the control subjects, the hemodialysis patients had significantly higher serum triglyceride and apolipoprotein B-associated apolipoprotein CIII concentrations (1.03 +/- 0.31 v 1.98 +/- 0.86 mmol/L and 0.004 +/- 0.002 v 0.011 +/- 0.005 g/L, respectively), lower serum high-density lipoprotein (HDL) cholesterol and apolipoprotein AI concentrations (1.33 +/- 0.37 v 0.95 +/- 0.31 mmol/L and 1.29 +/- 0.25 v 1.09 +/- 0.23 g/L, respectively), and lower postheparin plasma LPL activity (82 +/- 24 v 35 +/- 14 milliU/milliL). There were also significant increases in the relative fat content and diameter of VLDL particles from patients versus controls. VLDL was labeled with a fluorescent phospholipid analog, DHPE, and the rate of the lipolytic reaction with purified bovine milk LPL was estimated from the increase in fluorescence intensity at 490 nm. There was no significant difference between initial reaction velocities in the study groups, but VLDL particles from hemodialysis patients were lipolyzed to a significantly lesser extent than those from healthy controls (mean increase in fluorescence intensity after completion of the reaction, 95 +/- 36 v 140 +/- 43 arbitrary units). These results are in accordance with the accumulation of remnant particles reported to occur in uremia despite only a moderately increased serum triglyceride concentration.
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PMID:Very-low-density lipoprotein of uremic patients is a poor substrate for bovine lipoprotein lipase in vitro. 863 41

Using ligand blotting techniques, with low-density lipoprotein (LDL) as ligand, we have previously described the existence of atypical lipoprotein-binding proteins (105 kDa and 130 kDa) in membranes from human aortic medical tissue. The present study demonstrates that these proteins are also present in membranes from cultured human (aortic and mesenteric) and rat (aortic) vascular smooth-muscle cells (VSMCs). To assess the relationship of 105 and 130 kDa lipoprotein-binding proteins to known lipoprotein receptors, ligand binding specificity was studied. We tested effects of substances known to antagonize ligand binding to either the LDL [apolipoprotein B,E (apo B,E)] receptor (dextran sulphate, heparin, pentosan polysulphate, protamine, spermine, histone), the scavenger receptor (dextran sulphate, fucoidin), the very-low-density-lipoprotein (VLDL) receptor [receptor-associated protein (RAP)], or LDL receptor-related protein (RAP, alpha 2-macroglobulin, lipoprotein lipase, exotoxin-A). None of these substances, with the exception of dextran sulphate, influenced binding of LDL to either 105 or 130 kDa proteins. Sodium oleate or oleic acid, known stimuli for the lipoprotein binding activity of the lipolysis-stimulated receptor, were also without effect. LDL binding to 105 and 130 kDa proteins was inhibited by anti-LDL (apo B) antibodies. LDL and VLDL bound to 105 and 130 kDa proteins with similar affinities (approximately 50 micrograms/ml). The unique ligand selectivity of 105 and 130 kDa proteins supports the existence of a novel lipoprotein-binding protein that is distinct from all other currently identified LDL receptor family members. The similar ligand selectivity of 105 and 130 kDa proteins suggests that they may represent variant forms of an atypical lipoprotein-binding protein.
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PMID:Ligand selectivity of 105 kDa and 130 kDa lipoprotein-binding proteins in vascular-smooth-muscle-cell membranes is unique. 869 79


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