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)

Apolipoprotein C-II (apoC-II), a protein constituent of very low density lipoproteins of human plasma and the activator protein of lipoprotein lipase, has been isolated and its amino acid sequence has been studied. The protein has 78 amino acid residues and is lacking cysteine, cystine, and histidine. Chromatography on Bio-Gel P-30 in 25% formic acid of the cyanogen bromide digest of apoC-II yields three fragments designated as CNBr-I, -II, and -III. They contained 50, 19, and 9 residues, respectively. The alignment of the cyanogen bromide fragments has been established as CNBr-III-I-II by isolation and sequence of the tryptic peptides of the intact protein. The amino acid sequences of the tryptic and CNBr peptides were determined by conventional methods. With this information, it was possible to establish the complete amino acid sequence of apoC-II.
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PMID:Primary structure of very low density apolipoprotein C-II of human plasma. 19 44

A specific, precise, and sensitive double-antibody radioimmunoassay for the measurement of human apolipoprotein CII (apoCII) was developed. ApoCII was labeled with (125)I (chloramine-T) and monospecific antibody was raised in rabbits. No appreciable cross-reactivity with apolipoproteins CI, CIII, AI, AII, low density lipoproteins, and lipoprotein-free plasma was observed. Lipoproteins containing apoCII displaced the standard curve in parallel. ApoCII measurement was not affected by pretreatment of plasma with tetramethylurea, ethanol-diethyl ether, or heating. Mean (+/-SE) plasma-immunoreactive apoCII in 47 normotriglyceridemic subjects was 51.8+/-3.2 mug/ml, generally comparable with previous estimates of its concentration by other methods. ApoCII levels in 9 subjects with type IIB lipoprotein pattern, 14 with the type IV lipoprotein pattern, and 5 with type V lipoprotein pattern were respectively, 89.9+/-4.6, 85.4+/-6.9, 132.8+/-21.0 mug/ml, all higher than normals (P < 0.001). Plasma apoCII and triglyceride concentrations correlated in normo- and hypertriglyceridemics (r = 0.36 and 0.58, P < 0.05). Plasma triglycerides correlated inversely with the fraction of total apoCII in very low density lipoprotein (VLDL)-free plasma (r = -0.75, P < 0.01). There was no correlation between plasma apoCII and high density lipoprotein cholesterol. In normotriglyceridemics, VLDL apoCII levels correlated with in vitro lipoprotein lipase (LPL) activator activities (r = 0.89, P < 0.01). In hypertriglyceridemic subjects the mean concentrations of apoCII per milligrams VLDL protein, LPL activator activity per milligrams VLDL protein, and LPL activator activity per micrograms VLDL apoCII were all lower than in normotriglyceridemics, P < 0.05. As plasma triglycerides and apoCII increase, apoCII is redistributed from high density lipoprotein to VLDL. However, the amount of apoCII per milligram VLDL protein and its LPL activator potency per milligram VLDL protein are reduced. These factors may contribute to impaired VLDL catabolism.
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PMID:Radioimmunoassay of human apolipoprotein CII. A study in normal and hypertriglyceridemic subjects. 19 19

Kinetic analysis of activation of lipoprotein lipase by apo C-2 indicates that the lipase co-protein increase the rate of lipolysis by adsorption to enzyme at the lipid interface, with formation of a 1:1 molar complex, whose dissociation constant in the presence of triglyceride substrate is about 3 X 10(-13) moles cm-3. Activation by apo C-2, like that by the entire lipoprotein apoprotein moiety (Fielding and Fielding, 1976) is reversible by inorganic salts and the dependence of activation on medium ion-pair activity supports the concept that such inhibition is mediated through a single specific anion-binding site of the lipase co-protein.
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PMID:The activation of lipoprotein lipase by lipase co-protein (apo C-2). 19 8

Evidence is presented that hepatic triglyceride lipase (H-TGL) and lipoprotein lipase (LPL), purified from human postheparin plasma, can each hydrolyze both glyceryl trioleate and palmitoyl-CoA. The average ratio of glyceryl trioleate/palmitoyl-CoA hydrolase activities, obtained with enzyme preparations from 15 human postheparin plasma samples was 1.30 (1.18-1.52) for H-TGL and 8.75 (7.45-10.25) for LPL. Albumin was identified as the serum cofactor required for the hydrolysis of palmitoyl-CoA by H-TGL. It protected this enzyme from inactivation by this substrate. In contrast, palmitoyl-CoA activated and protected LPL from denaturation by dilution and incubation at 25 degrees C. The effects of other detergents were investigated on glyceryl trioleate hydrolase activities of both enzymes. Sodium dodecyl sulfate (0.4 mM) and Trisoleate (0.4 mM), which also effectively activated and protected LPL against inactivation, had only moderate protective effect on H-TGL. Sodium dodecyl sulfate at a higher concentration (1 mM) produced little or no inhibition of LPL, while completely inactivating H-TGL. Conversely, sodium taurodeoxycholate (0.4 mM) protected and activated H-TGL, but had only moderate protective effect on LPL. Triton X-100 (0.1-0.8 mM) and egg lysolecithin (0.05-2 mM) also protected H-TGL, but not LPL. The very dissimilar effects of detergents on preparations on H-TGL and LPL may form the basis for the direct assay of each enzyme in the presence of the other.
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PMID:Differential characteristics of purified hepatic triglyceride lipase and lipoprotein lipase from human postheparin plasma. 19 82

Primary monolayers of calf aortic endothelial cells were presented with isolated human very low density lipoproteins that had been labeled with radioactive triglyceride. The cells were observed to take up triglyceride over a 24 hr period; incorporation increased with exogenous lipoprotein concentrations, and up to 60% of the triglyceride taken up was converted to other cell lipids within 24 hr. When [2-3H]glyceryl tri[1-14C]oleate-labeled very low density lipoprotein was used, the 3H/14C ratio in the cell triglyceride was always similar to that of the exogenous lipoprotein triglyceride. Moreover, no significant hydrolysis of the exogenous very low density lipoprotein triglyceride was observed during the time of exposure to the cells. Similar experiments using doubly-labeled triglyceride exposed to endothelial cells in triglyceride-phospholipid liposome preparations also resulted in incorporation of the exogenous triglyceride without evidence of extracellular hydrolysis. The results indicate that primary monolayers of endothelial cells in culture are able to incorporate and metabolize very low density lipoprotein triglyceride. However, triglyceride does not appear to be significantly hydrolyzed during uptake, suggesting an absence of lipoprotein lipase activity in these cells.
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PMID:Uptake of very low density lipoprotein triglyceride by bovine aortic endothelial cells in culture. 19 2

In a 60-year-old patient with manifest diabetes mellitus and in his 63-year-old brother with latent diabetes mellitus hypobeta-lipoproteinaemia was diagnosed. Cholesterol values were around 1,8 mmol/1 in whole serum samples. The LDL-cholesterol fraction was 1,04 mmol/1. The beta-lipoprotein band in the lipoprotein electrophoresis was markedly reduced. Apolipoprotein B measured by radial immuno-diffusion was about 30% of the normal for age. The components of LDL were normal. Values of hepatic triglyceride lipase and lipoprotein lipase in heparinised plasma were within the normal range. The simultaneous occurrence of hypobetalipoproteinaemia and diabetes mellitus is described here for the first time.
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PMID:[Familial hypobetalipoproteinaemia and diabetes mellitus (author's transl)]. 19 10

Egg yolk lipoproteins of very low density were found to contain proteins with cofactor activity for lipoprotein lipase. When delipidated very low density lipoproteins were dissolved in 10 mM HCl and fractionated by gel filtration about two thirds of the protein were in several components with estimated molecular weights of 60000 to more than 170000. The major low-molecular-weight proteins were the dimeric and monomeric forms of a previously characterized 9000-dalton peptide. The cofactor activity was not associated with any of these major proteins. A large-scale fractionation method was developed by which two proteins fractions with cofactor activity for lipoprotein lipase were purified more than thousand-fold. One fraction had a molecular size of about 9000 daltons and the other had a size of about 5000 daltons. Both these fractions could be further separated on the basis of charge into several fractions with cofactor activity. The cofactor proteins were relatively soluble both at high and at low pH. The retained their cofactor activity after denaturation in guanidinium hydrochloride and after reduction. During the initial steps in the purification of the cofactor proteins another low-molecular-weight protein followed the cofactors. It had a single 17500-dalton peptide chain and was present in four variants, three of which contained carbohydrate.
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PMID:Protein components of very low density lipoproteins from hen's egg yolk. 19 37

To test the hypothesis that hydrolysis of glycerophosphatides causes displacement of apolipoprotein C from very low density lipoprotein, we have studied the effects of a snake venom phospholipase A2 on very low density lipoprotein labeled with [125I]apoC, [3H]cholesterol, [14C]palmitate and [32P]phospholipids. In spite of hydrolysis of 97% of the phosphatidylcholine, only small amounts of labeled apoC and labeled cholesterol were displaced from the very low density lipoprotein. With purified lipoprotein lipase in contrast, 80-90% of the labeled apoC and cholesterol were removed from the lipoprotein. It is concluded that hydrolysis of phosphatidylcholine does not cause an appreciable dissociation of apolipoprotein C from very low density lipoprotein.
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PMID:Hydrolysis of phosphatidylcholine by phospholipase A2 does not cause dissociation of apolipoprotein C from rat plasma very low density lipoprotein. 20 Feb 75

To investigate the pathogenesis of hypertriglyceridemia in patients with renal disease we measured plasma lipoprotein composition as well as hepatic triglyceride lipase and lipoprotein lipase in post-heparin plasma. Three groups with renal disease were studied: conservatively treated chronic uremia; patients undergoing maintenance hemodialysis; and renal-allograft recipients. A selective decrease of hepatic triglyceride lipase with normal lipoprotein lipase was found in conservatively treated uremia and in patients undergoing hemodialysis. Elevated levels of very-low-density lipoproteins and increased triglycerides in low-density lipoproteins occurred in these patients. In contrast, hepatic triglyceride lipase and lipoprotein lipase were both normal in patients after renal transplantation who had Type II hyperlipoproteinemia as a common lipoprotein pattern with increased low-density-lipoprotein cholesterol and decreased high-density-lipoprotein cholesterol concentrations. The accumulation of a triglyceride-rich low-density lipoprotein in the majority of patients with renal disease may be the consequence of low hepatic triglyceride lipase.
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PMID:Selective deficiency of hepatic triglyceride lipase in uremic patients. 20 Aug 41

In 18 patients with anorexia nervosa, plasma cholesterol and triglyceride concentral concentrations were repeatedly determined over a period of 14 mo. In 11 patients elevated cholesterol concentrations were found which were due to an increase of low-density lipoprotein cholesterol, whereas high-density lipoprotein and very low density lipoprotein cholesterol levels were in the normal range. The elevated cholesterol values did not correlate with clinical and laboratory parameters such as the degree of weight loss and thyroid function tests. In follow-up studies it could be shown that in patients who regained their original weight, elevated plasma cholesterol concentrations fell to normal levels parallel to weight increase. In patients who showed no change in weight, however, cholesterol levels remained high. The cause for this secondary type II hyperlipoproteinemia in anorexia nervosa is not known. Hepatic triglyceride lipase and lipoprotein lipase activities in post-heparin plasma were found to be low despite normal triglyceride concentrations.
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PMID:Secondary type II hyperlipoproteinemia in patients with anorexia nervosa. 20 20


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