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: UMLS:C0019204 (hepatocellular carcinoma)
71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hepatic triglyceride lipase (H-TGL) is a key lipolytic enzyme in the metabolism of human plasma high density lipoproteins. The enzyme is bound to glycosaminoglycans on endothelial cells in the liver and is immediately released into the circulation after heparin administration. In addition to releasing H-TGL, heparin-like glycosaminoglycans have also been shown to suppress hepatocyte proliferation and to alter tissue-specific gene expression. In the present study, the effects of heparin exposure on the secretion of H-TGL were examined in a human parenchymal hepatoma (HepG2) cell line. The addition of heparin to serum-supplemented medium induced the secretion of H-TGL in a time- and concentration-dependent manner. At 5.4 micrograms/ml heparin, H-TGL levels, as determined by triacyglycerol hydrolase activity, increased 7-fold after a 44-h incubation. Heparin exposure decreased intracellular H-TGL activity from 21.3 to 4.8 nmol of oleic acids released/h/10(8) cells and increased enzyme activity in the medium from 16.2 to 165.3 nmol of oleic acids released/h/10(8) cells. The heparin-induced secretion of H-TGL was associated with increased levels of H-TGL-specific mRNA. The addition of actinomycin D or cycloheximide reversed the heparin-induced increase in H-TGL activity and mRNA. Heparin treatment did not increase the level of actin mRNA suggesting that elevated H-TGL mRNA is due to enhanced tissue-specific expression of H-TGL. Expression of apolipoprotein E, another protein involved in lipoprotein metabolism, also showed induced levels of mRNA by heparin but to a lesser extent than that for H-TGL. We conclude that heparin stimulates the de novo synthesis of H-TGL in liver parenchymal cells in vivo by influencing both transcriptional and post-transcriptional events.
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PMID:Heparin induces the expression of hepatic triglyceride lipase in a human hepatoma (HepG2) cell line. 254 13

The mechanism for the stimulation of hepatic lipase secretion by heparin was studied in cultured Fu5AH rat hepatoma cells. Quantitative immunoprecipitation followed by electrophoresis and fluorography were used to isolate and quantitate the radioactive enzyme; hepatic lipase protein mass was quantitated by ELISA. Addition of heparin to the medium resulted in a 2-fold increase in lipase secretion rate, whereas cell-surface-associated and intracellular lipase decreased by 76 and 20%, respectively. Rates of synthesis of hepatic lipase measured by incorporation of Trans 35S-label into enzyme protein were not different in control or heparin-treated dishes. In pulse-chase studies, it was estimated that the degradation rate constants for control and heparin-treated cultures were 0.51 +/- 0.09 and 0.14 +/- 0.13 h-1 for control and heparin-treated cultures, respectively. 52% of the synthesized enzyme was degraded in control cultures; addition of heparin to the culture medium reduced this figure to 11% of the synthetic rate. Equilibrium binding data of highly purified 125I-hepatic lipase to Fu5AH cells at 4 degrees C demonstrate the presence of a class of high-affinity binding sites. At 37 degrees C, cell-surface-bound 125I-hepatic lipase is internalized and either degraded or recycled to the medium. The half-intracellular residence times of hepatic lipase were 55 and 31 min in control and heparin-treated cultures, respectively. Radioactivity incorporated in the 55.4 kDa high-mannose-containing lipase and the mature 57.6 kDa species was measured as a means of locating the enzyme in the secretory pathway before or beyond the medial Golgi. The disappearance of the 55.4 kDa species from the cell is similar in control and heparin-treated cultures with half-intracellular residence times of 29 and 25 min, respectively. In contrast, the amount of radiolabeled 57.6 kDa species in control cells remained constant from 15 min to 2 h, whereas it decreased by 79% in heparin-treated cells. The above data demonstrate that the increase in hepatic lipase secretion is due to a decreased degradation rate with no change in synthetic rate and that heparin primarily affected the residence time of hepatic lipase in the medial Golgi-plasma membrane region.
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PMID:Heparin decreases the degradation rate of hepatic lipase in Fu5AH rat hepatoma cells. A model for hepatic lipase efflux from hepatocytes. 266 15

By immunoscreening of a human cDNA expression library and hybridization of colonies, four partially overlapping cDNA clones of human hepatic triglyceride lipase (HTGL) mRNA were isolated. The clones included the complete coding sequence, the 3'- and at least part of the 5'-untranslated region. The length of the composite HTGL cDNA segment (1.7 kb) was consistent with the size of the mRNA identified in an established human hepatoma cell line. DNA-sequence analysis of cDNAs of partially unspliced mRNAs, and of cloned genomic DNA indicated that the HTGL coding sequence comprises at least six exons. As predicted from the cDNA, the unprocessed HTGL protein has a molecular weight of 56, three potential glycosylation sites, and a signal peptide of 23 amino acids. Sequence comparison with cDNA of other lipases, including rat hepatic lipase, revealed 30%-75% protein-sequence homology. The data establish that HTGL is a secretory protein produced in the hepatocyte, and that its synthesis can be continued in permanent cell lines of hepatoma origin. Our studies also showed that HTGL is another member of a lipase gene family which has interfacial binding sites and possibly other functional domains in common.
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PMID:Human hepatic triglyceride lipase: cDNA cloning, amino acid sequence and expression in a cultured cell line. 282 41

Hepatic triglyceride lipase (H-TGL) was isolated from human postheparin plasma by column chromatography on heparin-Sepharose and phenyl-Sepharose and immunoaffinity chromatography with monoclonal antibodies. The purified enzyme had an apparent molecular weight of 65,000 on sodium dodecyl sulfate-polyacrylamide gel electrophoresis and an amino-terminal sequence of Leu-Gly-Gln-Ser-Leu-Lys-Pro-Glu. Partial amino acid sequences of seven cyanogen bromide peptides were obtained. A human hepatoma cDNA library was screened with synthetic oligonucleotides derived from the partial protein sequence. The cloned H-TGL cDNA of 1569 nucleotides predicts a mature protein of 477 amino acids plus a leader sequence of 22 amino acids. Blot hybridization analysis of poly(A)+ mRNA with a putative H-TGL cDNA clone gave a single hybridizing band of 1.7 kilobases. The protein contains four consensus N-glycosylation sequences based on the cDNA sequence. Comparison of the enzyme sequence with that of other lipases reveals highly conserved sequences in regions of putative lipid and heparin binding. The carboxyl terminus of H-TGL contains a highly basic sequence which is not reported to be present in rat H-TGL or other members of the lipase gene family.
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PMID:Isolation and cDNA sequence of human postheparin plasma hepatic triglyceride lipase. 283 10

The bidirectional surface transfer of free cholesterol (FC) between Fu5AH rat hepatoma cells and human high density lipoprotein (HDL) was studied. Cells and HDL were prelabeled with [4-14C]FC and [7-3H]FC, respectively. Influx and efflux of FC were measured simultaneously from the appearance of 3H counts in cells and 14C counts in medium. Results were analyzed by a computerized procedure which fitted sets of kinetic data to a model assuming that cell and HDL FC populations each formed a single homogeneous pool and that together the pools formed a closed system. This analysis yielded values for the first-order rate constants of FC influx and efflux (ki and ke), from which influx and efflux of FC mass (Fi and Fe) could be calculated. With normal HDL, the uptake and release of FC tracers conformed well to the above-described model; Fi and Fe were approximately equal, suggesting an exchange of FC between cells and HDL. HDL was depleted of phospholipid (PL) by treatment with either phospholipase A2 or heparin-releasable rat hepatic lipase, followed by incubation with bovine serum albumin. PL depletion of HDL had little or no effect on ki, but reduced ke, indicating that PL-deficient HDL is a relatively poor acceptor of cell cholesterol. The reduction in ke resulted in initial Fi greater than Fe and, thus, in net uptake of FC by the cells. This result explained previous results demonstrating net uptake of FC from PL-depleted HDL. In the presence of an inhibitor of acyl coenzyme A:cholesterol acyltransferase, the steady state distribution of FC mass between cells and HDL was accurately predicted by the ratio of rate constants for FC flux. This result provided additional validation for describing FC flux in terms of first-order rate constants and homogeneous cell and HDL FC pools.
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PMID:The bidirectional flux of cholesterol between cells and lipoproteins. Effects of phospholipid depletion of high density lipoprotein. 370 Mar 71

The processing and secretion of newly synthesized hepatic lipase was characterized in FU5AH rat hepatoma cells. Pulse-chase experiments revealed two immunoreactive species with apparent molecular weights of 55,400 and 57,600. The 55.4 kDa species was detectable only in cell extracts, whereas the 57.6 kDa species was present in both cell extracts and media. Following a 5 min pulse with L-[35S]methionine and a 10 min chase, these two species represented only 0.003% of the total labelled protein. Quantitation of the 55.4 kDa and 57.6 kDa species in a chase time course taken together with their respective sensitivity and resistance to digestion with endo-beta-N-acetylglucosaminidase H indicates that the 55.4 kDa species is a high mannose precursor to the mature 57.6 kDa enzyme which contains only complex N-linked oligosaccharides. From a time course of endo-beta-N-acetylglucosaminidase H digestion, it was determined that hepatic lipase contains a minimum of two N-linked oligosaccharides. Treatment of the 55.4 kDa species with endo-beta-N-acetylglucosaminidase H yields a protein with a kDa value similar to that observed after treatment of the mature secreted enzyme with endo-beta-N-acetylglucosaminidase F or trifluoromethanesulfonic acid. Therefore, processing of N-linked oligosaccharides is probably the only post-translational modification responsible for the observed change in the apparent molecular weight of hepatic lipase. The half-residence times of hepatic lipase in the endoplasmic reticulum-cis Golgi region and in the cell were estimated at 34 min and 57 min, respectively. Newly synthesized hepatic lipase in Fu5AH cells is secreted constitutively and is not stored in an intracellular pool. Finally, little of the newly synthesized enzyme is degraded during the course of a 1 h chase.
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PMID:Characterization of the intracellular processing and secretion of hepatic lipase in FU5AH rat hepatoma cells. 381 25

Hepatic lipase can enhance the delivery of high-density lipoprotein (HDL) cholesterol to cells by a process which does not involve apoprotein catabolism. The incorporation of HDL-free (unesterified) cholesterol, phospholipid, and cholesteryl ester by cells has been compared to establish the mechanism of this delivery process. Human HDL was reconstituted with 3H-free cholesterol and [14C]sphingomyelin, treated with hepatic lipase in the presence of albumin to remove the products of lipolysis, reisolated, and then incubated with cultured rat hepatoma cells. Relative to control HDL, modification of HDL with hepatic lipase stimulated both the amount of HDL-free cholesterol taken up by the cell and the esterification of HDL-free cholesterol but did not affect the delivery of sphingomyelin. Experiments utilizing HDL reconstituted with 14C-free cholesterol and [3H]cholesteryl oleoyl ether suggest that hepatic lipase enhances the incorporation of HDL-esterified cholesterol. However, the amount of free cholesterol delivered as a result of treatment with hepatic lipase was 4-fold that of esterified cholesterol. On the basis of HDL composition, the cellular incorporation of free cholesterol was about 10 times that which would occur by the uptake and degradation of intact particles. The preferential incorporation of HDL-free cholesterol did not require the presence of lysophosphatidylcholine. To correlate the events observed at the cellular level with alterations in lipoprotein structure, high-resolution, proton-decoupled 13C nuclear magnetic resonance spectroscopy (90.55 MHz) was performed on HDL3 in which the cholesterol molecules were replaced with [4-13C]cholesterol by particle reconstitution.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mechanism of the hepatic lipase induced accumulation of high-density lipoprotein cholesterol by cells in culture. 389 72

The objective of this study was to determine whether high density lipoproteins (HDL) that have been treated with hepatic lipase have an enhanced ability to deliver cholesterol to cells. Human HDL was incubated with rat hepatic lipase, reisolated, and subjected to compositional analysis. Approximately 28% of the HDL phosphatidylcholine was hydrolyzed by the hepatic lipase but no change was detected in the cholesterol or apoprotein content of the HDL compared to HDL incubated with heat-inactivated hepatic lipase. Cultured rat hepatoma cells exposed to hepatic lipase-modified HDL showed an increased uptake of HDL free cholesterol relative to cells exposed to control HDL. This increased delivery of HDL free cholesterol was demonstrated by both isotopic and mass determinations and it contributed to a 1.6-fold increase in total cellular cholesterol content relative to cells treated with control HDL. The free cholesterol delivered by the HDL is functionally available to the cell as evidenced by the conversion of radiolabeled free cholesterol to cholesteryl ester. The stimulation of free cholesterol delivery was dose-dependent up to a level of 100 micrograms of HDL free cholesterol/ml of extracellular medium, and was directly related to the extent of phosphatidylcholine hydrolysis. The enhanced cellular accumulation of HDL free cholesterol observed with hepatic lipase appears to be due to the phospholipase activity of this enzyme, since similar results were obtained with HDL that had been modified by snake venom phospholipase A2.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hepatic lipase stimulates the uptake of high density lipoprotein cholesterol by hepatoma cells. 663 Dec 21

A phospholipase A2 bound tightly to the particulate fractions of rat ascites hepatoma cells was purified approximately 13,000-fold with a reasonably high yield (34%) by extraction with sodium cholate, ammonium sulfate fractionation, solubilization with sodium dodecyl sulfate, column chromatographies on Sephadex G-150 in the presence of sodium dodecyl sulfate, and on DEAE-cellulose and CM-cellulose in the presence of Triton X-100. The enzyme has a unique substrate specificity; namely, it preferentially hydrolyzes phosphatidylethanolamine and, to a lesser degree, phosphatidylglycerol. However, it does not attack phosphatidylcholine, phosphatidic acid or cardiolipin in the present experimental conditions. The final preparation shows both phospholipase A2 and lysophospholipase L2 activities, but neither lysophospholipase L1 nor lipase activity. The purified enzyme has a rather broad pH optimum ranging from 7 to 9, requires Ca2+, and is resistant to heat-treatment at 95 degree C for 5 min.
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PMID:Purification and properties of a membrane-bound phospholipase A2 from rat ascites hepatoma 108A cells. 739 Sep 73

Rat hepatoma McA-RH7777 cells transfected with a human hepatic lipase (HL) cDNA synthesized and secreted 50-80 ng of human HL/mg of cell protein at 4 h, approximately 50% of which was bound to cell-surface heparan sulfate proteoglycans (HSPG). The newly synthesized HL possessed enzymatic activity. When rabbit beta-very low density lipoproteins (beta-VLDL) and canine chylomicrons or chylomicron remnants were incubated with HL-secreting cells, remnant binding and uptake were enhanced 3-fold compared with nontransfected cells. Furthermore, fluorescence microscopy showed enhanced uptake of 1,1'-dioctadecyl-3,3,3',3'-tetramethylindocarbocyanine-labeled beta-VLDL by the HL-transfected cells. When 125I-beta-VLDL were added to conditioned medium from HL-secreting cells, the HL in the media enhanced the binding and uptake of the remnant lipoproteins by nontransfected cells about 3-fold. Likewise, surface-bound HL (without HL in the medium) also was able to mediate the enhanced binding of the remnants. This HL-enhanced binding was shown to be mediated by an interaction with cell-surface HSPG. Heparinase treatment to remove cell-surface HSPG or chlorate treatment to prevent HSPG sulfation of the HL-secreting cells abolished all the HL-mediated enhanced binding and uptake. Furthermore, heparinase pretreatment of nontransfected cells prevented the enhanced binding and uptake of beta-VLDL incubated with conditioned medium from HL-secreting cells. As binding was not enhanced in the absence of HSPG, an HL-HSPG initial interaction appears essential. Addition of apolipoprotein (apo) E to the beta-VLDL did not facilitate HL-mediated binding and uptake; in fact, beta-VLDL from apoE-null mice demonstrated a similar degree of enhanced binding as did rabbit beta-VLDL with or without added apoE. On the other hand, beta-VLDL from transgenic mice overexpressing binding-defective apoE(Arg142-->Cys) did not display any enhanced binding and uptake by the HL-secreting cells, and it appears that the apoE(Arg142-->Cys) actually inhibited the HL-mediated interaction. This mutant form of apoE is associated with a dominant mode of expression of type III hyperlipoproteinemia in contrast to the more commonly occurring recessive disorder. Impaired HL interaction with the apoE(Arg142-->Cys) beta-VLDL may contribute to remnant lipoprotein accumulation in the plasma of patients with this mutant form of apoE. Thus, HL contributes to the enhanced cell association of specific types of remnant lipoproteins by initiating their binding to cell-surface HSPG.
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PMID:Enhanced binding and uptake of remnant lipoproteins by hepatic lipase-secreting hepatoma cells in culture. 817 74


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