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)

In vitro studies indicate that relative amounts of apolipoproteins CII and CIII in plasma may alter lipoprotein lipase mediated triglyceride removal from very low density lipoprotein. Therefore, we have determined relative amounts of these peptides in pregnant women in late gestation (mean 36 weeks) and 6 and 20 weeks postpartum. Very low density (d less than 1.006) and intermediate density (d 1.006-1.019) lipoproteins have been examined because they are affected similarly in pregnancy. Triglyceride and cholesterol in these two fractions increased 3 1/2 to 4 1/2-fold in pregnancy in keeping with previous reports. On a relative basis, apo CII was decreased and apo CIII1 and CIII2 increased in both VLDL and IDL at 36 weeks gestation. At 6 and 20 weeks postpartum relative amounts of C peptides returned to identical levels and were unaffected by lactation. It remains to be seen if in vivo triglyceride removal in pregnancy is altered by the reduction in apo CII relative to apo CIII.
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PMID:Lipid metabolism in pregnancy. IV. C Apoprotein changes in very low and intermediate density lipoproteins. 92 31

Hypertriglyceridemia is common in the general population, but its mechanism is largely unknown. In previous work human apo CIII transgenic (HuCIIITg) mice were found to have elevated triglyceride levels. In this report, the mechanism for the hypertriglyceridemia was studied. Two different HuCIIITg mouse lines were used: a low expressor line with serum triglycerides of approximately 280 mg/dl, and a high expressor line with serum triglycerides of approximately 1,000 mg/dl. Elevated triglycerides were mainly in VLDL. VLDL particles were 1.5 times more triglyceride-rich in high expressor mice than in controls. The total amount of apo CIII (human and mouse) per VLDL particle was 2 and 2.5 times the normal amount in low and high expressors, respectively. Mouse apo E was decreased by 35 and 77% in low and high expressor mice, respectively. Under electron microscopy, VLDL particles from low and high expressor mice were found to have a larger mean diameter, 55.2 +/- 16.6 and 58.2 +/- 17.8 nm, respectively, compared with 51.0 +/- 13.4 nm from control mice. In in vivo studies, radiolabeled VLDL fractional catabolic rate (FCR) was reduced in low and high expressor mice to 2.58 and 0.77 pools/h, respectively, compared with 7.67 pools/h in controls, with no significant differences in the VLDL production rates. In an attempt to explain the reduced VLDL FCR in transgenic mice, tissue lipoprotein lipase (LPL) activity was determined in control and high expressor mice and no differences were observed. Also, VLDLs obtained from control and high expressor mice were found to be equally good substrates for purified LPL. Thus excess apo CIII in HuCIIITg mice does not cause reduced VLDL FCR by suppressing the amount of extractable LPL in tissues or making HuCIIITg VLDL a bad substrate for LPL. Tissue uptake of VLDL was studied in hepatoma cell cultures, and VLDL from transgenic mice was found to be taken up much more slowly than control VLDL (P < 0.0001), indicating that HuCIIITg VLDL is not well recognized by lipoprotein receptors. Additional in vivo studies with Triton-treated mice showed increased VLDL triglyceride, but not apo B, production in the HuCIIITg mice compared with controls. Tissue culture studies with primary hepatocytes showed a modest increase in triglyceride, but not apo B or total protein, secretion in high expressor mice compared with controls. In summary, hypertriglyceridemia in HuCIIITg mice appears to result primarily from decreased tissue uptake of triglyceride-rich particles from the circulation, which is most likely due to increased apo CIII and decreased apo E on VLDL particles. the HuCIIITg mouse appears to be a suitable animal model of primary familial hypertriglyceridemia, and these studies suggest a possible mechanism for this common lipoprotein disorder.
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PMID:Mechanism of hypertriglyceridemia in human apolipoprotein (apo) CIII transgenic mice. Diminished very low density lipoprotein fractional catabolic rate associated with increased apo CIII and reduced apo E on the particles. 143 Feb 12

Two major isoforms of the bovine analogue to human apolipoprotein (apo) CII were purified from plasma. They were both as effective as human apo CII in activating lipoprotein lipase. Amino acid sequencing revealed that one form contained 79 amino acid residues, and corresponded to human pro apo CII. The other form lacked the first six residues at its N-terminus. This was apparently due to cleavage of the -Gln-Asp- linkage in the sequence H2N-Ala-His-Val-Pro-Gln-Gln-Asp-Glu-, analogous to cleavages described for human apo AI and apo CII. Previous studies with human apo CII have shown that the ability to activate lipoprotein lipase resides in the C-terminal third of the molecule. This was highly conserved in the bovine analogue: of the 30 last residues, 21 are identical. Five residues in this part of human apo CII have been reported to be essential for activation of lipoprotein lipase. Only one of these, Tyr63, is present in the bovine sequence. The bovine structure contains a threonine at position 61, instead of serine in the human, and the four last residues are -Ser-Gly-Lys-Asp instead of the allegedly necessary -Lys-Gly-Glu-Glu. Three differently sialylated isoforms of the bovine analogue to human apolipoprotein CIII were also isolated and partially sequenced. All three lacked the first three N-terminal residues as compared to sequences from other species (man, dog and rat). Sequence differences were more pronounced at the ends than in the central parts of the apo CIII molecules.
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PMID:Primary structure of the bovine analogues to human apolipoproteins CII and CIII. Studies on isoforms and evidence for proteolytic processing. 220 8

Previous data suggest that apolipoprotein (apo) CIII may inhibit both triglyceride hydrolysis by lipoprotein lipase (LPL) and apo E-mediated uptake of triglyceride-rich lipoproteins by the liver. We studied apo B metabolism in very low density (VLDL), intermediate density (IDL), and low density lipoproteins (LDL) in two sisters with apo CIII-apo AI deficiency. The subjects had reduced levels of VLDL triglyceride, normal LDL cholesterol, and near absence of high density lipoprotein (HDL) cholesterol. Compartmental analysis of the kinetics of apo B metabolism after injection of 125I-VLDL and 131I-LDL revealed fractional catabolic rates (FCR) for VLDL apo B that were six to seven times faster than normal. Simultaneous injection of [3H]glycerol demonstrated rapid catabolism of VLDL triglyceride. VLDL apo B was rapidly and efficiently converted to IDL and LDL. The FCR for LDL apo B was normal. In vitro experiments indicated that, although sera from the apo CIII-apo-AI deficient patients were able to normally activate purified LPL, increasing volumes of these sera did not result in the progressive inhibition of LPL activity demonstrable with normal sera. Addition of purified apo CIII to the deficient sera resulted in 20-50% reductions in maximal LPL activity compared with levels of activity attained with the same volumes of the native, deficient sera. These in vitro studies, together with the in vivo results, indicate that in normal subjects apo CIII can inhibit the catabolism of triglyceride-rich lipoproteins by lipoprotein lipase.
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PMID:Apolipoprotein B metabolism in subjects with deficiency of apolipoproteins CIII and AI. Evidence that apolipoprotein CIII inhibits catabolism of triglyceride-rich lipoproteins by lipoprotein lipase in vivo. 309 75

Gemfibrozil is a potent lipid regulating drug whose major effects are to increase plasma high density lipoproteins (HDL) and to decrease plasma triglycerides (TG) in a wide variety of primary and secondary dyslipoproteinemias. Its mechanism of action is not clear. Six patients with primary familial endogenous hypertriglyceridemia with fasting chylomicronemia (type V lipoprotein phenotype) with concurrent subnormal HDL cholesterol levels (HDL deficiency) were treated initially by diet and once stabilized, were given gemfibrozil (1,200 mg/d). Each patient was admitted to the Clinical Research Center with metabolic kitchen facilities, for investigation of HDL and TG metabolism immediately before and after 8 wk of gemfibrozil treatment. Gemfibrozil significantly increased plasma HDL cholesterol, apolipoprotein (apo) AI, and apo AII by 36%, 29%, and 38% from base line, respectively. Plasma TG decreased by 54%. Kinetics of apo AI and apo AII metabolism were assessed by analysis of the specific radioactivity decay curves after injection of autologous HDL labeled with 125I. Gemfibrozil increased synthetic rates of apo AI and apo AII by 27% and 34%, respectively, without changing the fractional catabolic rates. Stimulation of apo AI and apo AII synthesis by gemfibrozil was associated with the appearance in plasma of smaller (and heavier) HDL particles as assessed by gradient gel electrophoresis and HDL composition. Postheparin extra-hepatic lipoprotein lipase activity increased significantly by 25% after gemfibrozil, and was associated with the appearance in plasma of smaller very low density lipoprotein particles whose apo CIII:CII ratio was decreased. These data suggest that gemfibrozil increases plasma HDL levels by stimulating their synthesis. Increased transport (turnover) of HDL induced by gemfibrozil may be significant in increasing tissue cholesterol removal in these patients.
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PMID:Mechanism of action of gemfibrozil on lipoprotein metabolism. 392 42

Very low-density lipoproteins (VLDL) contain sialylated apolipoproteins (apo) (eg, apo CIII1-3) that inhibit apo CII activation of lipoprotein lipase (LPL) and also uptake of triglyceride (TG)-rich lipoproteins by the liver. Hypertriglyceridemic patients can have an excess of sialylated apo CIII (apo CIII1 or apo CIII2) in VLDL. These observations have prompted the notion that sialic acid in VLDL may impede LPL or receptor-mediated clearance of VLDL and thus result in hypertriglyceridemia. The aim of this study was to determine whether desialylation of VLDL altered their property as a substrate for LPL. VLDL isolated from five hypertriglyceridemic patients was desialylated with neuraminidase, labeled with a fluorescent probe, dansyl phosphatidylethanolamine and 600 micrograms of labeled VLDL TG were incubated with a constant amount of purified bovine LPL. The change in fluorescence against time was monitored on a recorder to yield curves representing continuous lipolysis of VLDL by LPL. Mean initial velocity of reaction (Vi) and extent of lipolysis measured as total increase in fluorescence over baseline at 30 minutes (F30/FO) were similar (Vi = 10.2 +/- 0.37 control v 10.2 +/- 0.42 u/min desialylated VLDL; F30/FO = 4.1 +/- 0.15, control v 4.1 +/- 0.07 desialylated VLDL; n = 5). Thus, sialic acid does not influence VLDL catabolism by LPL. Our study does not exclude a possible role of the sialic acid in receptor mediated uptake of remnants produced by initial catabolism of VLDL by LPL.
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PMID:Effect of desialylation of very low-density lipoproteins on their catabolism by lipoprotein lipase. 396 60

Lipolysis of human very low density lipoproteins (VLDL) by lipoprotein lipase (LPL) was inhibited in the presence of high density lipoproteins (HDL), anti-apolipoprotein (apo) CII, and by increasing the VLDL free cholesterol content but not with anti-apo CIII or lipoprotein-free plasma. The experiments lend direct evidence that the composition of VLDL and their milieu are important determinants of lipolysis by LPL. Apo CIII may not be critical in LPL mediated VLDL catabolism.
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PMID:Effect of human high density lipoproteins, anti-apolipoproteins CII and CIII, and hydrolysis of very low density lipoprotein (VLDL) cholesterol ester on VLDL catabolism in vitro. 658 72

A patient with nephrotic syndrome and morbus Kimura (eosinophilic granuloma) showed chylous ascites. Ascites chylomicrons were analyzed and used to study the substrate specificity of lipoprotein lipase and hepatic triglyceride lipase. Ascites triglyceride and cholesterol concentrations were 191 and 12 mg/dl, respectively. Both apo CII and apo CIII content in ascites were approximately one-third of those of plasma from normal subjects. Ascites chylomicrons were incubated with either lipoprotein lipase or hepatic triglyceride lipase, which were prepared from postheparin plasma using heparin-Sepharose affinity chromatography. Lipoprotein lipase hydrolyzed ascites chylomicrons, while hepatic triglyceride lipase did not. These results suggest different functions of these two lipases in chylomicron catabolism.
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PMID:Ascites chylomicron: a poor substrate for hepatic triglyceride lipase. 721 13

A specific, accurate, and sensitive double antibody radioimmunoassay for measuring human apolipoprotein (apo) C-III has been developed. Anti-apoC-III(1) developed in rabbits cross-reacted completely with apoC-III subspecies. Analytical isoelectric focusing of delipidated triglyceride-rich lipoproteins (TRL) was done to assess the percentage of total apoC-III mass comprised by apoC-III(0), C-III(1), and C-III(2), and the data were used to compute the absolute plasma TRL apoC-III subspecie concentration. Total plasma apoC-III was 11.1 +/- 0.9 mg/dl (mean +/- SEM) in 29 normolipidemic healthy subjects; 21.3 +/- 4.9, 27.5 +/- 2.2, and 53.6 +/- 7 mg/dl in 3, 16, and 13 patients with primary types III, IV, and V hyperlipoproteinemia, respectively, and significantly (P < 0.01) higher than normal. Total plasma triglycerides (TG) correlated positively with total plasma apoC-III (r = 0.88; P = 0.0001) and TRL apoc-III (r = 0.88; P = 0.0001). Progressive hypertriglyceridemia was associated with a rise in the percent of total apoC-III in TRL isolated at d < 1.006 g/ml (r = 0.78; P < 0.0001; n = 43) and a reciprocal decline in the TRL-free plasma fraction (d > 1.006 g/ml). ApoC-III comprised significantly more of HDL(2) than HDL(3) protein (7.3 +/- 0.2 versus 1.6 +/- 0.2%, respectively, P < 0.01). HDL(2) and HDL(3) isolated from patients with type IV hyperlipoproteinemia had subnormal apoC-III as percent of total protein (2.4 +/- 0.5 and 0.6 +/- 0.1, respectively). Total plasma TG correlated negatively with i) apoC-III as percent of total HDL protein (r = -0.67; P = 0.002, n = 20); ii) apoC-III as percent of total HDL(2) protein (r = -0.52; P = 0.019); and iii) apoC-III as percent of total HDL(3) protein (r = -0.72; P = 0.0004). Plasma TRL apoC-III subspecie concentrations were significantly higher in the three hypertriglyceridemic groups (primary types III, IV, and V) compared to normals. TRL apoC-III(0) levels in patients with type IV and V were comparable (2.4 +/- 0.3 and 2.2 +/- 0.6 mg/dl, respectively). However, TRL apoC-III(1) and C-III(2) in patients with type V hyperlipoproteinemia were significantly higher (P < 0.01) than in patients with types IV or III hyperlipoproteinemia. Total plasma TG correlated positively with TRL apoC-III(0) (r = 0.56; P = 0.0004), TRL apoC-III(1) (r = 0.82; P = 0.0001) and TRL apoC-III(2) (r = 0.76; P = 0.0001). The slope of regression line relating total plasma TG with TRL apoC-III(1) was significantly steeper (P < 0.0001) than that for apoC-III(0). Thus, for a given interval of plasma TG, the change in concentration of TRL apoC-III(1) was much greater than that in TRL apoC-III(0). The development of the RIA and its combined use with analytical isoelectric focusing thus allows quantitation of this important glycopeptide and its subspecies in human plasma and its subfractions. Because apoC-III inhibits not only tissue lipoprotein lipase but also the hepatic uptake of triglyceride-rich lipoproteins and remnants, the data support the possibility that an abnormal metabolism of apoC-III subspecies may be linked pathogenetically to elevated plasma TG levels.-Kashyap, M. L., L. S. Srivastava, B. A. Hynd, P. S. Gartside, and G. Perisutti. Quantitation of human apolipoprotein C-III and its subspecies by radioimmunoassay and analytical isoelectric focusing: abnormal plasma triglyceride-rich lipoprotein apolipoprotein C-III subspecie concentrations in hypertriglyceridemia.
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PMID:Quantitation of human apolipoprotein C-III and its subspecie by radioimmunoassay and analytical isoelectric focusing: abnormal plasma triglyceride-rich lipoprotein apolipoprotein C-III subspecie concentrations in hypertriglyceridemia. 728 86

We hypothesized that variation of nine candidate genes in lipoprotein metabolism would be associated with variation in fasting plasma lipoprotein variables in 718 Alberta Hutterites, a genetic isolate. We measured plasma lipids, lipoproteins, and apolipoproteins and analyzed DNA for genotypes of apolipoprotein (apo) B (APOB), paraoxonase (PON), lipoprotein lipase (LPL), VLDL receptor (VLDLR), apo CIII (APOC3), LDL receptor-related protein (LRP), hepatic lipase (HL), LDL receptor (LDLR), and apo E (APOE). Using a multivariate analysis, we found that (1) genotypes of APOB, PON, LPL, LDLR, and APOE were significantly associated with variation of plasma apo B-related traits; (2) genotypes of PON, LPL, and APOC3 were significantly associated with variation in plasma triglycerides; and (3) genotypes of VLDLR, APOC3, LDLR, and APOE were significantly associated with variation in plasma apo AI and HDL cholesterol. Regression analysis showed that between 3.2% and 7.8% of the total variation in plasma lipoproteins was accounted for by variation in the candidate genes tested. The observations demonstrate a modest but significant genetic component of variation in plasma lipoprotein levels that is due to the candidate genes studied in this normolipemic human genetic isolate.
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PMID:Multiple genetic determinants of variation of plasma lipoproteins in Alberta Hutterites. 760 Jan 18

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