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)

The effect of castanospermine (CSTP), an inhibitor of glucosidase I, on processing, activity, and secretion of lipoprotein lipase was studied in 3T3-L1 adipocytes. Processing was analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) of endoglycosidase H (endo H)-digested subunits of lipoprotein lipase from cells incubated 1-2 h with [35S]methionine. Lipoprotein lipase in untreated cells consisted of two groups of subunits, M(r) = 55,000-58,000 and M(r) = 53,000-55,000. The heavier subunits were endo H-resistant, whereas the others were either totally or partially endo H-sensitive. The lipase secreted by untreated cells contained primarily endo H-resistant subunits. Immunofluorescent studies showed that lipoprotein lipase accumulated in Golgi in untreated cells. CSTP, 100 micrograms/ml for 18 h, decreased intracellular lipase activity by 80% and decreased secretion of lipase activity by 91%. Most of the lipase subunits in CSTP-treated cells were totally endo H-sensitive with M(r) = 57,000, some were partially endo H-sensitive, and a trace was endo-H resistant. Totally endo H-sensitive subunits in CSTP-treated cells had a M(r) 2,000-4,000 larger than that in untreated cells, indicating impaired trimming of sugar residues from oligosaccharide chains of the lipase in CSTP-treated cells. The small amount of lipase secreted by CSTP-treated cells consisted primarily of partially endo H-sensitive subunits, with one sensitive and one resistant chain per subunit. Immunofluorescent studies showed that lipoprotein lipase was excluded from Golgi in CSTP-treated cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Retention of glucose by N-linked oligosaccharide chains impedes expression of lipoprotein lipase activity: effect of castanospermine. 140 1

The regulation of adipose tissue lipoprotein lipase (LPL) by feeding and fasting occurs through post-translational changes in the LPL protein. In addition, LPL activity and secretion are decreased when N-linked glycosylation is inhibited. To better understand the role of oligosaccharide processing in the development of LPL activity and in LPL secretion, primary cultures of rat adipocytes were treated with inhibitors of oligosaccharide processing. LPL catalytic activity from the heparin-releasable fraction of adipocytes was inhibited by more than 70%, with similar decreases in LPL mass, when cells were cultured for 24 h in the presence of either tunicamycin or castanospermine. On the other hand, deoxymannojirimycin (DMJ) and swainsonine had no effect on LPL activity. LPL secretion was examined after pulse-labeling cells with [35S]methionine. The appearance of 35S-labeled LPL in the medium was blocked by treatment of cells with tunicamycin and castanospermine, whereas secretion was not affected by DMJ or swainsonine. To examine the effect of oligosaccharide processing on LPL intracellular degradation, adipocytes were treated with tunicamycin, castanospermine, and DMJ and then pulse-labeled with [35S]methionine, followed by a chase with unlabeled methionine for 120 min. The unglycosylated [35S]LPL that was synthesized in the presence of tunicamycin demonstrated essentially no intracellular degradation. In the presence of castanospermine and DMJ, the half-life of newly synthesized LPL was increased to 81 and 113 min, as compared to 65 min in control cells. Thus, castanospermine-treated adipocytes demonstrated a decrease in LPL activity and secretion, suggesting that the glucosidase-mediated cleavage of terminal glucose residues from oligosaccharides is a critical step in LPL maturation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization of lipoprotein lipase activity, secretion, and degradation at different sites of post-translational processing in primary cultures of rat adipocytes. 147 87

Total lipoprotein lipase (LPL) activity did not differ significantly between hearts from fed or fasted guinea pigs. Incorporation of [35S]methionine into immunoprecipitable LPL was also the same. The rates at which perfused hearts from fed or fasted guinea pigs released LPL activity into the medium were, however, different (2 vs. 4 mU.g-1.min-1). These rates remained constant over 60 min of perfusion. Addition of heparin to the medium resulted in a peak of LPL activity during the first 2 min, followed by a shoulder of relatively high activity, which gradually declined to a constant rate from 30 min. The peak and shoulders were less with hearts from fed animals than with hearts from fasted animals, but the constant rates were similar. Cycloheximide added at the start of the perfusion had no effect on the peak or on the early part of the shoulder, but the LPL activity released from 30 min continuously decreased so that at 60 min it was less than half of that in controls. Studies in which the enzyme was pulse labeled by perfusion 15 min with medium containing [35S]methionine and then chased up to 75 min with unlabeled medium showed no differences in how LPL is transported and metabolized in hearts from fed vs. fasted guinea pigs. Thus the data suggest that factors outside the heart influence the disposition of heart LPL in vivo.
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PMID:Synthesis and transport of lipoprotein lipase in perfused guinea pig hearts. 151 Jan 42

Patients with diabetes commonly manifest hypertriglyceridemia along with decreased adipose tissue lipoprotein lipase (LPL) activity, and improved diabetes control tends to reverse these abnormalities. To better understand the mechanism of regulation of LPL in diabetes, 11 diabetic patients (3 type I, 8 type II) were brought under improved glycemic control, and adipose tissue LPL gene expression was assessed by performing paired fat biopsies. Six of the 11 patients attained improved control with insulin, with a decrease in glycohemoglobin (glyc Hgb) from 13.8 +/- 0.9 to 10.4 +/- 0.6%; 5 patients attained improved control with glyburide (glyc Hgb fell from 14.2 +/- 2.4 to 8.8 +/- 0.6%), and together they demonstrated a lowering of serum triglycerides and total cholesterol. No changes were observed in HDL cholesterol. Improved diabetes control resulted in a significant increase in LPL activity in both the heparin-releasable (HR) and extractable (EXT) fractions of adipose tissue, as well as in LPL immunoreactive mass. The change in LPL activity with improved control was variable, and showed a positive correlation with the HDL levels prior to treatment (r = 0.74, P less than 0.02). When adipose tissue was pulse-labeled with [35S]methionine, there was an increase in isotope incorporation into LPL after treatment, indicating an increase in LPL synthetic rate. However, improved diabetes control resulted in no significant change in LPL mRNA levels. Thus, improved glycemic control resulted in an increase in LPL activity which correlated with each patient's basal high density lipoprotein. This increase in LPL activity was accompanied by an increase in LPL immunoreactive mass, and an increase in LPL synthesis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of improved diabetes control on the expression of lipoprotein lipase in human adipose tissue. 155 36

The mechanisms by which insulin and glucocorticoids modulate lipoprotein lipase (LPL) synthesis and degradation were examined in human adipose tissue fragments maintained in organ culture. Tissue fragments were cultured for 7 days in serum-free medium supplemented with or without insulin (7 nM) and with or without dexamethasone (30 nM), a synthetic glucocorticoid. Responses of LPL activity to both insulin and dexamethasone were obtained at doses within the physiological range. At a maximal dose, insulin increased heparin-releasable and total LPL activity (approximately 7-fold) by specifically increasing the rate of LPL synthesis (approximately 5-fold) determined by pulse labeling with [35S]methionine and [35S]cysteine and immunoprecipitation. Dexamethasone added in the presence of insulin increased heparin-releasable and total LPL activity approximately 8-fold but did not alter rates of LPL synthesis compared with insulin alone. Pulse-chase studies showed that the rate of LPL degradation was markedly slowed in the presence of dexamethasone plus insulin compared with insulin alone. These data suggest that, in human adipose tissue, insulin is essential for maintaining rates of LPL synthesis and that cortisol may play a key role in regulating human adipose tissue LPL at the posttranslational level by inhibiting the degradation of newly synthesized LPL.
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PMID:Effects of insulin and dexamethasone on lipoprotein lipase in human adipose tissue. 159 Mar 79

The effects of all-trans retinoic acid (RA) on the lipoprotein lipase (LPL) activity, synthesis and mRNA content in 3T3-L1 adipocytes were studied. When fully differentiated 3T3-L1 adipocytes were exposed to RA, dose-dependent suppression of LPL activity was observed. The loss of activity reached a maximum of 60% of the control level and appeared to be due to an effect on synthesis of the enzyme, as judged from the decreased incorporation of [35S] methionine and [35S] cysteine into immunoprecipitable LPL. The LPL mRNA level remained unchanged under the same conditions. In contrast, no significant reduction in glycerol-3-phosphate dehydrogenase activity or change in the morphological signature occurred on 24 hr exposure of 3T3-L1 adipocytes to RA. These results suggest that RA can specifically down-regulate LPL enzyme expression in adipocytes at the posttranscriptional level.
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PMID:Lipoprotein lipase enzyme expression in 3T3-L1 adipocytes is posttranscriptionally down-regulated by retinoic acid. 161 Mar 91

Human adipose tissues from the abdomen (subcutaneous), thigh (subcutaneous) and omentum were incubated for 2 h with [35S]methionine. Then glycosylation of lipoprotein lipase (LPL) was analyzed by sodium dodecylsulfate-polyacrylamide gel electrophoresis (SDS-PAGE) of endoglycosidase H (endo H)-digested subunits of the 35S-labeled lipase. Adipose tissues from the abdomen, thigh, and omentum all synthesized LPL subunits with Mr = 57,000 composed of two types of subunits. One type was partially endo H-sensitive yielding a product with Mr = 55,000, indicating that it had one endo H-resistant and one endo H-sensitive oligosaccharide chain. The other type of subunit was totally endo H-sensitive yielding a product with Mr = 52,000. Subcutaneous adipose tissues contained nearly equal amounts of partially and totally endo H-sensitive subunits of LPL, whereas omental adipose tissues contained mainly partially endo H-sensitive subunits of LPL.
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PMID:Glycosylation of lipoprotein lipase in human subcutaneous and omental adipose tissues. 164

Triglycerides in circulating plasma lipoproteins are hydrolyzed by lipoprotein lipase (LPL) which is thought to bind to proteoglycans on the luminal endothelial cell surface. Previous studies from this laboratory using LPL-Sepharose affinity chromatography identified a 220-kDa LPL binding proteoglycan. Using ligand blotting with 125I-LPL, we now report a 116-kDa LPL binding protein in plasma membrane preparations of endothelial cells. 125I-LPL binding to this protein was abolished by addition of unlabeled LPL. When the cell surface of endothelial cells was labeled with biotin, a 116-kDa protein was biotinylated. Furthermore, the biotinylated 116-kDa protein bound to LPL-Sepharose and eluted with 0.4 M NaCl suggesting that the 116-kDa LPL binding protein is present on the cell surface. When detergent extracts of endothelial cells were applied to LPL-Sepharose in the presence of 0.15 M NaCl, the 116-kDa, but not the 220-kDa, protein still bound to LPL-Sepharose. The 116-kDa protein was not labeled with 35SO4 and eluted from DEAE-cellulose prior to proteoglycans, suggesting that it is not a proteoglycan. However, a 116-kDa endothelial cell surface protein was metabolically labeled with [35S]methionine. This protein was dissociated from the cell surface by incubating cells with heparin (50 units/ml)-containing buffer. After heparin treatment of endothelial cells, LPL binding to and internalization by the cells decreased greater than 70% compared to control cells. These results suggest that endothelial cells synthesize a heparin-releasable, high affinity 116-kDa LPL binding protein. We postulate that this protein is associated with proteoglycans on luminal endothelial surfaces and mediates LPL binding, internalization, and recycling. We name this protein hrp (heparin-releasable protein)-116.
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PMID:Identification of a heparin-releasable lipoprotein lipase binding protein from endothelial cells. 164 32

Apolipoprotein E (apoE) is an important constituent of plasma lipoproteins and a ligand for several lipoprotein receptors. It is produced mainly in the liver but also in several peripheral tissues like brain, adrenal glands, kidney, and macrophages. Some of these tissues also coexpress lipoprotein lipase (LPL), an important enzyme in the metabolism of lipids and lipoproteins. This suggested a possible coordinate expression of these genes and led us to analyze whether adipocytes, a major source of LPL, could also synthesize apoE. Northern blotting experiments showed that apoE mRNA is found in differentiated mouse 3T3-L1 adipocytes as well as biopsies of human adipose tissue maintained in organ culture but not in undifferentiated 3T3-L1 preadipocytes. [35S]Methionine pulse-labeling experiments revealed that apoE protein is produced in human adipose tissue and differentiated mouse 3T3-L1 adipocytes but not in preadipocytes. In biosynthetic labeling experiments, most apoE was found to be cell associated even after prolonged chase periods. Heparin treatment of the cultured cells did not enhance apoE secretion. During differentiation of 3T3-L1 cells, the onset of apoE gene expression was later than that of LPL. The apoE mRNA and intracellular apoE protein concentrations increased linearly with time of differentiation, at least through day 11, whereas LPL showed highest expression at day 7 and then declined. The increase in apoE mRNA correlated with the cellular lipid content. Inhibition of lipid accumulation in differentiated cells by biotin deprivation decreased apoE expression. Cholesterol-loading experiments suggested that apoE mRNA expression is regulated by the intracellular free cholesterol content of 3T3-L1 adipocytes. In contrast, the LPL mRNA level was not influenced by biotin deprivation or cholesterol loading. Human recombinant tumor necrosis factor, a potent inhibitor of LPL gene transcription, had no effect on adipocyte apoE mRNA levels. Therefore, although apoE and LPL are both expressed in adipocytes in a differentiation-dependent manner, the time course of their expression differs as do their responses to cellular lipid content and tumor necrosis factor. We conclude that these genes are not coordinately regulated in adipocytes.
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PMID:Apolipoprotein E gene expression in mouse 3T3-L1 adipocytes and human adipose tissue and its regulation by differentiation and lipid content. 170 37

The entire gene for chicken lipoprotein lipase (LPL) has been isolated and characterized by primer extension and sequence analysis. The gene is 17 kilobase pairs long and comprises 10 exons and 9 introns. As determined by primer extension analysis the start sites of transcription map 176, 204 and 218 nucleotides upstream of the initiator methionine codon. The 1947 base pairs of 5' flanking sequence contains several putative regulatory elements including two adjacent Oct I binding elements, four glucocorticoid regulatory elements and a sequence very homologous to the previously described fat specific element at--1402 nt. The first intron is very large (6433 bp) and contains four consensus SpI binding-site sequences. Five polyadenylation signals are found in the 3' untranslated region, the last three of which give predicted mRNA species identical in size to those determined by Northern blot. The 5' flanking sequences of the LPL, pancreatic lipase and hepatic lipase genes do not show homology, however. This may account for the homologous amino acid sequences but dissimilar gene expression of these enzymes.
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PMID:The structure and complete nucleotide sequence of the avian lipoprotein lipase gene. 173 55

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