UMLS:C0019204 - FACTA Search

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

The lysosomal cysteine proteinase cathepsin B is synthesized in cultured human hepatoma HepG2 cells as an inactive 44 kDa precursor and subsequently processed to the mature single-chain enzyme with a molecular mass of 33 kDa. Intralysosomal conversion into the two-chain form results in subunits of 27 kDa, 24 kDa (heavy chain) and 5 kDa (light chain). Enzymic deglycosylation reveals that the 27 kDa polypeptide is the glycosylated variant of the carbohydrate-free 24 kDa heavy-chain form. The intracellular transport to the lysosomes is dependent upon mannose 6-phosphate-containing N-linked oligosaccharides. Receptor-mediated endocytosis of human skin-fibroblast-derived procathepsin B by HepG2 cells resulted in processed molecular forms that are not distinguishable from endogenous cathepsin B, thus favouring rather a cell-type-specific processing than structural differences due to the source of the proenzyme. The conversion step of single-chain catehpsin B into the two-chain enzyme is inhibited in vivo by the irreversible cysteine-proteinase inhibitors Z-Phe-Ala-CHN2 and, albeit weaker, Z-Phe-Phe-CHN2. Both substances have no effect on the activation of procathepsin B to the mature enzyme. The carbohydrate moiety of cathepsin B exerts no significant influence on the stability and the enzymatic activity of the enzyme.
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PMID:Proteolytic processing and glycosylation of cathepsin B. The role of the primary structure of the latent precursor and of the carbohydrate moiety for cell-type-specific molecular forms of the enzyme. 131 33

Apolipoprotein A-II is the second most abundant polypeptide found in human plasma high density lipoprotein particles. The primary translation product of human apo-A-II mRNA is a prepropolypeptide. We have previously reported (Gordon, J. I., Sims, H. F., Edelstein, C., Scanu, A. M., and Strauss, A. W. (1984) J. Biol. Chem. 259, 15556-15563) that the prosegment of apo-A-II was removed following export from a human hepatoma cell line (Hep G2). This represented a novel processing compartment for prosegments terminating with paired basic residues and differed from the processing of proalbumin which occurred with high efficiency prior to export from these cells. We have now characterized the enzyme responsible for this extracellular cleavage. The proapo-A-II converting activity is blocked by the thiol protease inhibitors antipain, E-64, leupeptin, and Ala-Lys-Arg chloromethyl ketone. Incubation of 125I-iodotyrosylated Ala-Lys-Arg chloromethyl ketone with serum-free media harvested from cell cultures over a 12-h period revealed a time-dependent accumulation of a 54-kDa protease. Although small quantities of the 54-kDa protease were detected in cell lysates, the major intracellular sequences labeled by the affinity probe had masses of 31.5 and 6 kDa. The 54-kDa extracellular, as well as 31.5- and 6-kDa intracellular, species were all immunoprecipitated by monospecific anti-human liver cathepsin B IgG. Addition of this antibody to media inhibited extracellular conversion of proapo-A-II to the mature protein. Based on these observations, we conclude that a "pro" cathepsin B-like protease exported by Hep G2 cells is responsible for proapo-A-II prosegment removal. It appears that cathepsin B-like proteases exhibit a complex pattern of segregation within the secretory pathway and that larger molecular weight forms of cathepsin B-like proteases are capable of accurately processing propolypeptides.
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PMID:Extracellular processing of proapolipoprotein A-II in Hep G2 cell cultures is mediated by a 54-kDa protease immunologically related to cathepsin B. 241 99

The biochemical characteristics of cathepsin B secreted from cultured human liver cancer cells were examined. The enzyme activity of culture medium against a synthetic substrate, N-carbobenzoxy-L-arginyl-L-arginine-4-methyl-coumaryl-7-amide, was dependent on the addition of cysteine, and the optimal pH was found to be 6.0. No activity was observed when the enzyme source was fresh medium not used for culture. These results suggest that the enzyme released from liver cancer cells is the thiol-protease cathepsin B. The molecular weight of the enzyme with 90% of the total activity was 40,000. Two cathepsin B molecules were found in liver tissue from patients with hepatocellular carcinoma (HCC); one was equivalent in size to the secreted enzyme, and a smaller one was the same as normal liver cathepsin B (27,000), which was also obtained from HCC-bearing cirrhotic liver. These results demonstrate that two molecules of cathepsin B are synthesized in liver cancer, and that the larger one is released into the surrounding tissue.
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PMID:The secretion of high molecular weight cathepsin B from cultured human liver cancers. 271 72

Relative amounts of mRNA for cathepsin B were measured in normal murine liver and three murine tumors, an invasive liver tumor (hepatoma, Hepa cl 9) and two melanoma variants (B16-F1 and B16 amelanotic melanoma, B16a). Using a human cDNA to the cathepsin B coding region as a hybridization probe, we detected two species of cathepsin B specific RNA transcripts (2.2 and 4.1 kb) in total RNA preparations of all four tissues. The concentrations of the 2.2 and 4.1 kb species were 3.6 and 2.7-fold greater in the highly metastatic B16a melanoma than in normal liver. The concentration of the 2.2 kb species in the invasive hepatoma was 1.7-fold greater than in normal liver. The increased levels of the 2.2 kb message were reflected in increases in activity of cathepsin B in both Hepa cl 9 and B16a.
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PMID:Enhanced levels of cathepsin B mRNA in murine tumors. 292 10

Human hepatoma cell (HepG2) or rabbit hepatocyte monolayers were incubated with [35S]methionine in presence or absence of tunicamycin, a potent inhibitor of asparagine-linked glycosylation. The 35S-labeled nonglycosylated and control fibrinogens purified from the media were used to evaluate the influence of the oligosaccharide on the catabolic properties of this glycoprotein. Plasmin, pronase, cathepsin D or cathepsin B each degraded the nonglycosylated and control fibrinogens similarly, as evidenced by the release of trichloroacetic acid-soluble radioactivity and by SDS-polyacrylamide gel electrophoresis and autoradiography of plasmic digests. Nonglycosylated and control fibrin clots also showed no differences in susceptibility to plasmic digestion. The two forms of fibrinogen demonstrated the same plasma half-life in rabbits. These data indicate that the oligosaccharide does not influence the proteolytic stability or the in vivo plasma survival of fibrinogen, and suggest that other biochemical determinants may influence the catabolic properties of this molecule.
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PMID:Catabolic properties of aglycofibrinogen synthesized by tunicamycin-treated human hepatoma (HepG2) cells and rabbit hepatocytes. 301 19

Cathepsin B is a lysosomal thiol proteinase that may have additional extralysosomal functions. To further our investigations on the structure, mode of biosynthesis, and intracellular sorting of this enzyme, we have determined the complete coding sequences for human and mouse preprocathepsin B by using cDNA clones isolated from human hepatoma and kidney phage libraries. The nucleotide sequences predict that the primary structure of preprocathepsin B contains 339 amino acids organized as follows: a 17-residue NH2-terminal prepeptide sequence followed by a 62-residue propeptide region, 254 residues in mature (single chain) cathepsin B, and a 6-residue extension at the COOH terminus. A comparison of procathepsin B sequences from three species (human, mouse, and rat) reveals that the homology between the propeptides is relatively conserved with a minimum of 68% sequence identity. In particular, two conserved sequences in the propeptide that may be functionally significant include a potential glycosylation site and the presence of a single cysteine at position 59. Comparative analysis of the three sequences also suggests that processing of procathepsin B is a multistep process, during which enzymatically active intermediate forms may be generated. The availability of the cDNA clones will facilitate the identification of possible active or inactive intermediate processive forms as well as studies on the transcriptional regulation of the cathepsin B gene.
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PMID:Nucleotide and predicted amino acid sequences of cloned human and mouse preprocathepsin B cDNAs. 346 96

Activities of alkaline phosphatase (ALP), gamma-glutamyl transferase (GMT), lactate dehydrogenase (LD), beta-glucuronidase (GLU) and cathepsin B-like (CB-like) were determined in blind-coded sera from 50 patients with primary liver carcinoma, liver cirrhosis and acute hepatitis, and from 40 control subjects of comparable age range. CB-like activity averaged 700% (p less than 0.01), 1590% (p less than 0.01) and 1600% (p less than 0.01) of control subjects in liver cirrhosis (n = 30), acute hepatitis (n = 5) and primary liver carcinoma (n = 15), respectively. In acute hepatitis group we have found significant correlation between CB-like and GLU activities (r greater than 0.95). This correlation, however, was not observed in primary liver carcinoma suggesting that alteration in CB-like activity is not due to generalized increases in lysosomal membrane instability. The primary liver carcinoma group exhibited also the modest increments in serum ALP, GMT and LD activities (p less than 0.01). This increment, however, was not detected in any of acute hepatitis or liver cirrhosis patients. For the first time the alkaline-stable form of CB-like in human serum is described. This form representing 40% of overall CB-like activity was present in all primary liver carcinoma patients. This form, however, was not present in sera of any of control subjects or in sera of patients with acute hepatitis and liver cirrhosis with the exception of two men, in whom we have probably dealing with an early stage of primary liver carcinoma. Although the nature of the increment in CB-like activity in cancer remains to be determined, such analyses may help to the early detection of malignant hepatoma (primary liver carcinoma).
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PMID:Serum alkaline-stable acid thiol proteinase--a possible marker for primary liver carcinoma. 614 23

When their membrane proteins were labeled with 125I by lactoperoxidase, dividing hepatoma cells lost radioactivity to the medium in a biphasic manner (T1/2 = 16-26 h, greater than 40 h). Lysosomotropic weak bases, chloroquine, and NH4Cl inhibited the rapid phase by 59%. More than 50% of the radioactivity which accumulates in the media from dividing cells during the first 4 h after labeling was trichloroacetic acid-soluble, and was identified as iodotyrosine. Iodotyrosine release from labeled membrane proteins was 60-71% inhibited by lysosomotropic agents chloroquine and NH4Cl as well as the sodium-proton ionophore, monensin. The inhibitory effect of NH4Cl and monensin was reversible. Inhibitors of microtubule and microfilament function and transglutamination had no effect on release of iodotyrosine to the medium, but trypsin-like protease inhibitors, p-aminobenzamidine, tosyl-L-lysine/chloromethylketone, and phenylmethylsulfonyl fluoride, as well as the cathepsin B inhibitor, leupeptin, inhibited by 21-24%. Iodotyrosine release showed a biphasic Arrhenius plot with an activation energy of 17 kcal/mol above but 27 kcal/mol below 20 degrees C. These results indicate that cell membrane polypeptides require a temperature-limiting event as well as passage through an ion-sensitive compartment prior to their complete degradation to constituent amino acids. In contrast to other lysosomal-mediated events, however, iodinated membrane proteins of dividing cells are degraded in a manner insensitive to agents which disrupt the cytoskeleton.
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PMID:Degradation of surface-labeled hepatoma membrane polypeptides: effect of inhibitors. 648 99

We have isolated two cathepsin B (CTSB)-encoding cDNAs, hCBF1 and hCBF2, from a normal human embryonic fibroblast library. These clones demonstrate 98% identity to overlapping regions of published human hepatoma and kidney CTSB cDNAs, but show some interesting differences from the published sequences in the 3'-untranslated region (3'-UTR). Both hCBF1 and hCBF2 contain a 10-bp insertion in the 3'-UTR that may permit formation of a highly stable stem-loop structure not present in mRNAs without this insertion. Our hCBF1 cDNA also contains a 1019-bp extension of the 3'-UTR sequence that resembles the long 3'-UTR reported for murine CTSB cDNAs. Probes unique to this 3'-UTR extension hybridize to 4.0- and 1.7-kb CTSB RNAs on Northern blots, but not to the major 2.2-kb mRNA transcript. Our data reveal variations in normal human CTSB transcripts that result from differences in the length of the 3'-UTR, as well as the presence or absence of a stem-loop stabilizing sequence.
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PMID:Human cathepsin B-encoding cDNAs: sequence variations in the 3'-untranslated region. 750 3

We evaluated in situ expression of pancreatic trypsinogen (PT) and cathepsin B (CB) in 10 normal livers, 37 cholangiocarcinomas (CCs), and 36 hepatocellular carcinomas (HCCs). In normal livers, PT was expressed in intrahepatic large bile ducts, septal bile ducts, and peribiliary glands, and CB was present in hepatocytes and all epithelial cells of the intrahepatic biliary system. In CCs, PT was present in 26 (70%), of which 24 expressed PT both in CC cells and the CC stroma, and the remaining two showed PT only in CC cells. The ratio of PT-positive cases was high in well-differentiated CCs, moderate in moderately differentiated CCs, and low in poorly differentiated CCs. PT in the CC stroma was present in continuity with PT-positive CC cells, suggesting that PT was secreted from CC cells. The CC stroma positive for PT frequently showed destructive features. CB was present in 32 CCs (86%) and located in both CC cells and the CC stroma. All PT-positive CCs simultaneously expressed CB, suggesting a close association of PT and CB. In HCCs, in contrast, PT was not present in any cases. CB was present in 33 HCCs (92%) and located in both HCC cells and the HCC stroma. In positive specimens, PT immunoreactivity was finely granular in the cytoplasm, whereas CB immunoreactivity was diffuse in the entire cytoplasm. These data suggest that after malignant transformation CCs and HCCs continue to express PT and CB, and CB, respectively. It seems possible that PT secreted from CC cells is converted into trypsin by CB, and that trypsin and CB play a role in CC invasion by degrading extracellular matrix proteins.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Expression of pancreatic trypsinogen/trypsin and cathepsin B in human cholangiocarcinomas and hepatocellular carcinomas. 762 46

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