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)

The polypeptide composition of a variant lipoprotein (d less than 1.006) carrying a relative excess of apolipoprotein C-II has been characterised by polyacrylamide gel electrophoresis and isoelectric focussing. The apo-C peptides of the variant lipoprotein contained 45.2 +/- 1.3 (n = 9) % of apo C-II compared with 21.5 +/- 5.4 (n = 30) % for hypertriglyceridaemic controls. The variant lipoprotein activated purified bovine milk lipoprotein lipase normally, but was an inefficient substrate for this enzyme as assessed by direct release of fatty acids from the lipoprotein or by a substrate competition assay. Electron microscopy revealed the variant lipoprotein as non-spherical flattened particles compared with the more spherical appearance of control triglyceride-rich lipoproteins. We suggest that the relative proportion of apo C peptides associated with the lipoprotein particle may be critical for optimal enzyme-substrate interaction.
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PMID:An abnormal triglyceride-rich lipoprotein carrying excess apolipoprotein C-II. 747 Jan 92

We previously reported that a diglyceride lipase inhibitor, RG80267, inhibits chloride secretion stimulated by adenosine agonists, stimuli whose effects appear unrelated to cAMP, cGMP or cytosolic calcium. Here, the effect of RG80267 on Cl- secretory responses to agents which do utilize these messengers was examined. RG80267 inhibited responses to vasoactive intestinal polypeptide, forskolin (cAMP-dependent) and E. coli heat stable enterotoxin (cGMP-dependent), but not to prostaglandin E1 or cholera toxin (cAMP-dependent). RG80267 enhanced responses to histamine (calcium-dependent). The inhibitory effect of RG80267 was not due to inhibition of cAMP accumulation. Arachidonic acid release may participate in chloride secretion. Vasoactive intestinal polypeptide, but not prostaglandin E1, released radiolabel from cells preloaded with [3H]arachidonic acid. There may thus be differences between mechanisms of various cyclic nucleotide-dependent chloride secretory responses. Arachidonic acid release may modulate the extent of secretion elicited by some secretagogues.
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PMID:Effect of the diglyceride lipase inhibitor, RG80267, on epithelial chloride secretion induced by various agents. 766 11

Glycoprotein 330 (gp330), a cell-surface protein that is localized in clathrin-coated pits, is structurally related to both the low density lipoprotein receptor (LDLR) and the LDLR-related protein/alpha 2-macroglobulin receptor (LRP). We recently demonstrated that gp330 and LRP may be functionally related as well; both bind the 39-kDa polypeptide referred to as receptor-associated protein (Kounnas, M. Z., Argraves, W. S., and Strickland, D. K. (1992) J. Biol. Chem. 267, 21162-21166). In this report, we tested several other LRP ligands for their ability to interact with human and rat gp330 in vitro. Gp330 did not exhibit detectable binding to the LRP ligands, alpha 2-macroglobulin protease complex or Pseudomonas aeruginosa exotoxin A. However, we found that gp330 (purified from human or rat) bound the lipolytic enzyme lipoprotein lipase (LPL) with high affinity (Kd = 6.1 and 2.7 nM, respectively). The binding was saturable, divalent cation dependent, and inhibited by heparin or receptor-associated protein. Because LRP has also been shown to bind LPL, the present findings further extend the functional similarities between gp330 and LRP. By analogy to the postulated role of the LRP-LPL interaction in facilitating hepatic clearance of LPL-associated lipoproteins from the blood (Beisiegel, U., Weber, W., and Bengtsson-Olivercrona, G. (1991) Proc. Natl. Acad. Sci. U.S.A. 88, 8342-8346; Chappell, D. A., Fry, G. L., Waknitz, M. A., Iverius, P. H., Williams, S. E., and Strickland, D. K. (1992) J. Biol. Chem. 267, 25764-25767), we speculate that the gp330-LPL interaction described herein may contribute to the uptake of LPL-associated lipoproteins in tissues expressing gp330. Consistent with this possibility, we found that LPL promoted in vitro binding of 125I-lipoproteins to gp330.
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PMID:Glycoprotein 330, a member of the low density lipoprotein receptor family, binds lipoprotein lipase in vitro. 768 51

The direct actions of glucose-dependent insulinotropic polypeptide, glucagon-like peptide-1(7-36)amide and insulin on lipoprotein lipase activity in explants of rat epididymal adipose tissues were investigated. Lipoprotein lipase was extracted into the incubation medium by heparin release of lipoprotein lipase and measured by fatty acid release from a glyceroltriolein emulsion. Insulin and glucose-dependent insulinotropic polypeptide caused a significant stimulation of lipoprotein lipase activity over a dose range of 0.25-4 nmol/L and 4-8 nmol/L, respectively. Explants incubated in the presence of both insulin and glucose-dependent insulinotropic polypeptide (at 0.5 and 4 nmol/L, respectively) showed levels of lipoprotein lipase activity significantly greater than that seen with either hormone alone. Neither insulin- nor glucose-dependent insulinotropic polypeptide-stimulated lipoprotein lipase was modified by the presence of the antibiotic actinomycin-D in the incubation medium, indicating that these two hormones exert their actions on the pre-existing cellular pool of lipoprotein lipase. Glucagon-like polypeptide-1(7-36)amide, over a dose range of 1-8 nmol/L, did not stimulate lipoprotein lipase activity. This study indicates that glucose-dependent insulinotropic polypeptide, in addition to stimulating insulin secretion, has a direct biological action on adipose tissue and in vivo, together with insulin, may promote lipoprotein lipase activity postprandially.
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PMID:Investigations into the actions of glucose-dependent insulinotropic polypeptide and glucagon-like peptide-1(7-36)amide on lipoprotein lipase activity in explants of rat adipose tissue. 786 Dec 44

Although there have been a number of studies of effects of diet and hormones on lipoprotein lipase (EC 3.1.1.34; LPL) activity and levels of LPL mRNA (Raynolds et al. 1990), there have been no studies which have investigated effects of different dietary fatty acids on LPL gene expression. In the present study male Wistar Albino rats were pair-fed diets containing 50 g fat/kg of different fatty acid composition for 2 weeks. The diets fed were (1) a mixed oil (450 g saturated fatty acids, 420 g monounsaturated fatty acids, 130 g polyunsaturated fatty acids/kg; n 8), (2) maize oil (n 8), or (3) fish oil (n 8). Animals were killed, RNA was extracted from liver and perirenal and epididymal fat pads, and analysed by 'Northern methodology'. Samples were hybridized to a human cDNA probe for LPL (Gotoda et al. 1989). Two transcripts were identified in epididymal and perirenal adipose tissue which were approximately 3.7 and 1.7 kb in size. The results suggested that (1) fish oil-fed animals had significantly greater production of LPL mRNA in epididymal adipose tissue compared with maize oil-fed animals (P < 0.05), (2) maize oil-fed animals had significantly greater production of LPL mRNA in perirenal fat compared with the other dietary groups (P < 0.05), (3) expression in the liver was not significant. Rats fed on a fish oil diet had significantly reduced plasma triacylglycerol concentrations compared with the mixed-oil group (P < 0.05), but there were no significant differences in plasma cholesterol. The differences in LPL could not be explained directly by the changes in plasma immunoreactive-insulin and glucose-dependent insulinotrophic polypeptide levels in the three groups.
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PMID:Pretranslational regulation of the expression of the lipoprotein lipase (EC 3.1.1.34) gene by dietary fatty acids in the rat. 829 11

The complete amino acid sequence of mono- and diacylglycerol lipase from Penicillium camembertii was determined. This lipase has a single polypeptide chain consisting of 276 amino acid residues with two disulfide linkages. The primary structure was revealed by sequencing the digests of the intact and S-pyridylethylated proteins by trypsin, endoproteinase Lys-C and V8 protease. The two-dimensional electrophoresis was also carried out to confirm the internal sequence. The catalytic triad of this lipase was Ser, Asp and His, and one potential N-glycosylation site was also revealed.
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PMID:Primary structure determination of mono- and diacylglycerol lipase from Penicillium camembertii. 845 23

The human hormone-sensitive lipase (HSL) gene encodes a 786-aa polypeptide (85.5 kDa). It is composed of nine exons spanning approximately 11 kb, with exons 2-5 clustered in a 1.1-kb region. The putative catalytic site (Ser423) and a possible lipid-binding region in the C-terminal part are encoded by exons 6 and 9, respectively. Exon 8 encodes the phosphorylation site (Ser551) that controls cAMP-mediated activity and a second site (Ser553) that is phosphorylated by 5'-AMP-activated protein kinase. Human HSL showed 83% identity with the rat enzyme and contained a 12-aa deletion immediately upstream of the phosphorylation sites with an unknown effect on the activity control. Besides the catalytic site motif (Gly-Xaa-Ser-Xaa-Gly) found in most lipases, HSL shows no homology with other known lipases or proteins, except for a recently reported unexpected homology between the region surrounding its catalytic site and that of the lipase 2 of Moraxella TA144, an antarctic psychrotrophic bacterium. The gene of lipase 2, which catalyses lipolysis below 4 degrees C, was absent in the genomic DNA of five other Moraxella strains living at 37 degrees C. The lipase 2-like sequence in HSL may reflect an evolutionarily conserved cold adaptability that might be of critical survival value when low-temperature-mobilized endogenous lipids are the primary energy source (e.g., in poikilotherms or hibernators). The finding that HSL at 10 degrees C retained 3- to 5-fold more of its 37 degrees C catalytic activity than lipoprotein lipase or carboxyl ester lipase is consistent with this hypothesis.
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PMID:Gene organization and primary structure of human hormone-sensitive lipase: possible significance of a sequence homology with a lipase of Moraxella TA144, an antarctic bacterium. 850 34

Sheep x hamster cell hybrids containing sheep metacentric Chromosome (Chr) 2 were produced by fusing blood leukocytes from normal sheep with hamster auxotrophic Ade F-minus mutants. Cell clones that were isocitrate dehydrogenase 1 (IDH1) positive were cytogenetically characterized, confirming that they contained sheep Chr 2. The following loci were newly assigned by Southern hybridization to sheep Chr 2: lipoprotein lipase (LPL), glycoprotein-4-beta galactosyltransferase 2 (GGTB2), neurofilament light polypeptide (68 kDa; NEFL), surfactant-associated protein 2 (SFTP2), lymphocyte-specific protein tyrosine kinase (LCK), and nebulin (NEB). These new assignments and the in situ localization of gelsolin (GSN) to sheep Chr 2pter-p24 are consistent with the predicted homology of cattle Chr 8 (U18) with sheep Chr 2p, and of cattle Chr 2 (U17) with sheep 2q. In addition, the assignment by cell hybrid analysis of loci previously mapped to Chr 2 in sheep, viz., cholinergic receptor, nicotinic, delta polypeptide (CHRND), collagen type III alpha 1 (COL3A1), fibronectin 1 (FN1), isocitrate dehydrogenase (IDH1), and villin 1 (VIL1), confirmed the localization of sheep syntenic group U11 to this chromosome. By nutritional selection and complementation of the hamster auxotrophic Ade F mutation, the multifunctional enzyme locus phosphoribosylaminoimidazolecarboxamide formyltransferase (AICAR transformylase)/IMP cyclohydrolase (inosinicase) (provisionally given the symbol PRACFT) has also been newly assigned to sheep Chr 2. This report significantly extends the number of loci physically mapped to sheep Chr 2 and confirms its close homology with cattle Chrs 2 and 8.
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PMID:Thirteen loci physically assigned to sheep chromosome 2 by cell hybrid analysis and in situ hybridization. 874 25

Guinea pig phospholipase B (PLB) is an intestinal brush-border hydrolase displaying a broad substrate specificity towards various dietary lipids. PLB was detected by immunoblotting as a single 140-kDa polypeptide in all cell populations isolated from guinea pig intestinal mucosa, but increased in parallel to its activity from undifferentiated to mature cells, the specific activity of the enzyme remaining constant. Moreover, N-glycosylation, which contributed to 23% of the apparent molecular mass, was identical along the cell differentiation axis. In all cell fractions, N-linked sugar chains were of the complex type, since they were removed by N-glycosidase F, whereas PLB remained insensitive to endoglycosidase H. Moreover, lack of O-glycosylation was demonstrated by the insensitivity of PLB to O-glycosidase and by its failure to interact with Helix pomatia lectin after prior treatment with neuraminidase or alpha-fucosidase. Enzymatic removal of sugar chains reduced phospholipase A2, lysophospholipase and diacylglycerol lipase activities by 27-35%, kinetic analysis indicating a decrease in apparent Vmax values for the three enzymatic activities, whereas the Km remained unchanged. Finally, the carbohydrate-depleted form of PLB did not display gross changes in thermal stability, in contrast to PLB from microorganisms previously investigated. Our data indicate that the high level of PLB N-glycosylation is poorly related to its biological function. Whether carbohydrate chains are involved in proper targeting of the enzyme to the brush-border membrane remains to be established.
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PMID:Guinea pig intestinal phospholipase B: protein expression during enterocyte maturation and effects of N-oligosaccharide removal on enzymatic activities and protein stability. 885 41

Rat platelets secrete two types of phospholipases upon stimulation; one is type II phospholipase A2 and the other is serine-phospholipid-selective phospholipase A. In the current study we purified serine-phospholipid-selective phospholipase A and cloned its cDNA. The final preparation, purified from extracellular medium of activated rat platelets, gave a 55-kDa protein band on SDS-polyacrylamide gel electrophoresis. [3H]Diisopropyl fluorophosphate, an inhibitor of the enzyme, labeled the 55-kDa protein, suggesting that this polypeptide possesses active serine residues. The cDNA for the enzyme was cloned from a rat megakaryocyte cDNA library. The predicted 456-amino acid sequence contains a putative short N-terminal signal sequence and a GXSXG sequence, which is a motif of an active serine residue of serine esterase. Amino acid sequence homology analysis revealed that the enzyme shares about 30% homology with mammalian lipases (lipoprotein lipase, hepatic lipase, and pancreatic lipase). Regions surrounding the putative active serine, histidine, and aspartic acid, which may form a "lipase triad," were highly conserved among these enzymes. The recombinant protein, which we expressed in Sf9 insect cells using the baculovirus system, hydrolyzed a fatty acyl residue at the sn-1 position of lysophosphatidylserine and phosphatidylserine, but did not appreciably hydrolyze phosphatidylcholine, phosphatidylethanolamine, phosphatidylinositol, phosphatidic acid, and triglyceride. The present enzyme, named phosphatidylserine-phospholipase A1, is the first phospholipase that exclusively hydrolyses the sn-1 position and has a strict head group specificity for the substrate.
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PMID:Serine phospholipid-specific phospholipase A that is secreted from activated platelets. A new member of the lipase family. 899 22


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