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)

Experimental evidence of the existence of liver-specific growth factors has been collected for more than two decades. Blood-borne growth-promoting activity of hepatocytes may be separated into plasma and platelet-derived factors. Several groups have observed the stimulation of hepatocyte growth in vitro by some platelet-associated activity, which was recently isolated from rat platelets as a 27-kDa protein called platelet growth factor (PGF). There is evidence of at least two different growth factors for hepatocytes derived from platelet-poor rat plasma, 'hepatopoietin' A and B. The partial purification of several other factors has been reported. One of these factors was prepared from the plasma of patients with fulminant hepatic failure. In addition to these 'humoral' factors, cytosolic growth-promoting activity has been partially purified by several groups. While the humoral factors described so far are only active on normal hepatocytes, the cytosolic 'hepatic stimulator substance' (HSS) also promotes the proliferation of differentiated hepatoma cells. In addition, it appears to depend on the permissive action of epidermal growth factor (EGF). None of the liver-specific growth factors except PGF has been purified to homogeneity. Thus, their significance for the control of the proliferation of normal and transformed hepatocytes is still an unsettled issue.
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PMID:Liver-specific growth factors. 297 74

We have obtained a cloned cell line (Li-7A) from primary cultures of a human hepatoma xenograft (Li-7). Li-7A was able to grow in the absence of serum. Growth was stimulated 0-3 fold by addition of newborn calf serum, but was inhibited in DME/F12 media containing nine growth factors. The ectoMg2+-ATPase was 1.5-2 fold higher than the ectoCa2+-ATPase activity in cells grown in media with or without serum. In cells grown in media supplemented with the nine factors, the ectoCa2+-ATPase activity exceeded the ectoMg2+-ATPase, and there was also a 5-10 fold increase in its specific activity. Inhibition of growth was due to epidermal growth factor alone. The increased expression of the ectoCa2+-ATPase was absolutely dependent on EGF, but also required hydrocortisone and cholera toxin. The characteristics of Li-7A cells make it a suitable system for studying both the mechanism of action of EGF and plasma membrane ATPases.
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PMID:Epidermal growth factor inhibits growth while increasing the expression of an ecto-Ca2+-ATPase of a human hepatoma cell line. 298 83

Serum-free medium conditioned by confluent cultures of JM1 of JM2 rat hepatocellular carcinoma cells stimulated DNA synthesis in primary cultures of adult rat hepatocytes in a dose-dependent, saturable manner and in the absence of epidermal growth factor. The hepatotrophic activity was nondialyzable in Mr 50,000 cutoff membranes, heat (60 degrees C) and acid stable, and sensitive to trypsin and dithiothreitol treatment. Gel filtration of concentrated JM1 or JM2 conditioned medium on Sephadex G-100 separated the activity into two regions, the major broad peak migrating with apparent Mr 25,000. Chromatography fractions active in the hepatocyte proliferation bioassay also inhibited specific binding of iodinated epidermal growth factor to cultures of A431 carcinoma cells and rat hepatocytes. These results suggest that neoplastic liver cells synthesize and secrete polypeptide growth factors which can bind to epidermal growth factor receptors and stimulate proliferation of normal adult rat hepatocytes in primary culture.
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PMID:Partial purification and characterization of a hepatocyte growth factor produced by rat hepatocellular carcinoma cells. 299 98

Several human cell lines derived from primary cancer of the liver are able to grow under serum-free conditions and produce spreading and growth factors which are released into the culture medium. Since this autocrine growth under hormone-free conditions might play a basic role in malignant transformation, we studied the effect on cell replication and the presence of specific membrane receptors of epidermal growth factor (EGF) and insulin on a dedifferentiated human hepatoma cell line, named HA22T/VGH. Our results point to a similar inhibitory effect on cell replication in the presence of both EGF and insulin, in spite of detecting different affinities of binding.
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PMID:Differential response of the human hepatoma-derived cell line HA22T/VGH to polypeptide mitogens. 304 Apr 66

Adult rat hepatocytes multiply in primary cultures when incubated in arginine-free MX-83 medium supplemented with dialyzed fetal calf serum, insulin, glucagon, hydrocortisone, epidermal growth factor, and transferrin. In the absence of mitogens, the fraction of the cells engaged in DNA synthesis dropped sharply. However, cells initiated DNA synthesis in response to the mitogenic mixture indicating that hepatocyte proliferation is controlled by G1----S transition rates. In contrast, rat hepatoma line DTH-3, derived from Morris 7777 "minimal deviation" hepatoma, required only insulin for proliferation in chemically defined MX-83 medium. The lengths of their cell cycle phases varied with the growth rate. The phases of the growth cycle were proportionately shortened (expanded) when the growth rate was increased (decreased). It is concluded that DTH-3 hepatoma cells, which display a decreased growth factor requirement as compared with adult rat hepatocytes differ from normal hepatocytes by fundamental alterations in the mechanisms controlling the progression of the cell cycle.
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PMID:Altered growth factor requirements and cell cycle control in rat hepatoma cells versus adult rat hepatocytes in culture. 304 89

The eukaryotic facilitated glucose transporter (GT) is expressed by many cell types, with the notable exception of hepatocytes; however, GT is expressed by several hepatoma cell lines, including the well-differentiated lines Fao, Hep3B, and HepG2. We report on studies carried out to determine the aspect(s) of the transformed phenotype that might be responsible for activating GT expression. Using RNA blot analysis with probes derived from rat GT cDNA, we found that GT was expressed by rat hepatocytes under two conditions (i) in vitro, when isolated hepatocytes were placed in cell culture, and (ii) in vivo, when rats were subjected to starvation for greater than or equal to 2 days. However, GT expression was not an obligatory feature of hepatomas, since two primary hepatocellular carcinomas did not express any GT mRNA. GT expression in hepatocytes was reduced by addition of dimethyl sulfoxide or sodium butyrate to the culture medium. Since these reagents are known to promote differentiation in some cell culture systems, their effect on hepatocytes may be to maintain the GT repression normally observed in vivo. Inclusion or exclusion in the culture medium of several other agents that enhance hepatocyte viability (serum, insulin, corticosteroids, epidermal growth factor, or triiodothyronine) did not affect GT expression. It is unclear whether the two conditions that led to GT expression in hepatocytes are related by a common signaling mechanism. Possibly, both cases involve a "stress" response: in vivo, a normal physiological response to starvation; in vitro, a response to a major alteration in the cellular environment.
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PMID:Evidence for expression of the facilitated glucose transporter in rat hepatocytes. 319 5

In addition to the mature 50 amino acid transforming growth factor alpha (TGF alpha), some transformed cells appear to produce multiple higher molecular weight forms. The structure and derivation of most of these larger soluble TGF alpha species remain to be established. We previously reported that a chemically induced rat hepatocellular carcinoma cell line, JM1, secreted acid-stable proteins which bind to epidermal growth factor receptors and stimulate DNA synthesis in primary cultures of normal adult rat hepatocytes. Purification and characterization of these hepatoma-derived growth factors have indicated their relationship to TGF alpha. Two EGF-competing activities of apparent Mr 30K and 10K were separated by gel filtration of concentrated JM1-conditioned medium and further purified by ion-exchange chromatography and reverse-phase HPLC. Both growth factors were detected by a radioimmunoassay specific for TGF alpha. Western blotting with antibodies to the 50 amino acid TGF alpha revealed that the lower molecular weight factor comigrated with the synthetic 6-kDa rat TGF alpha. The higher molecular weight TGF alpha appeared on immunoblots as a diffuse band of 18-21 kDa, which converted to the mature 6-kDa form upon digestion with elastase, confirming a precursor-product relationship. However, the 18-21-kDa proteins did not react with antibodies directed against the carboxy-terminal cytoplasmic segment of the transmembrane TGF alpha precursor. Enzymatic deglycosylation of the 18-21-kDa TGF alpha species by sequential removal of sialic acids and O- and N-linked carbohydrate reduced the molecular weight to 11K. The size and soluble nature of this polypeptide suggest that it represents the extracellular domain of the transmembrane TGF alpha precursor.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization of high molecular weight transforming growth factor alpha produced by rat hepatocellular carcinoma cells. 321 49

In a subline of Reuber H35 rat hepatoma cells that becomes quiescent under serum-deprived conditions, insulin acts as a growth factor. When added to serum-deprived H35 cells, physiologic concentrations of insulin stimulate DNA synthesis, demonstrating that insulin alone is capable of inducing a transition from G0/G1 into S phase. This response, which is induced by nanomolar concentrations of insulin, is mediated directly through the insulin receptor. Here we show that coincident with this growth response, insulin or serum induces dramatic increases in the steady-state levels of c-fos and c-myc mRNAs in serum-deprived H35 cells in a time course similar to that observed in the regenerating liver. Other growth factors, including epidermal growth factor, appear not to affect these cells either in terms of DNA synthesis or c-myc mRNA induction. The phorbol ester phorbol 12-myristate 13-acetate (PMA) also induces c-myc and c-fos mRNAs without inducing DNA synthesis. However, the mechanism of this induction appears to be different from the insulin-induced induction since pretreatment of cells with PMA blocks only the PMA-mediated, not the insulin-mediated, induction of c-myc and c-fos.
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PMID:Insulin as a growth factor in rat hepatoma cells. Stimulation of proto-oncogene expression. 330 43

Insulin treatment enhances casein kinase II (CKII) activity in 3T3-L1 mouse adipocytes and H4-IIE rat hepatoma cells, the magnitude of the activation varying from 30% to 150%. Activation of CKII was apparent after 5 min of exposure of 3T3-L1 cells to insulin, was maximal by 10 min, and persisted through 90 min. The insulin-stimulated activity was inhibited by low concentrations of heparin and was stimulated by spermine. Activation of CKII was effected by physiological concentrations of insulin (EC50 = 0.15 nM), suggesting that the effect is a true insulin response and not one mediated through insulin-like growth factor receptors. Epidermal growth factor (100 ng/ml for 10 min) also activated CKII in A431 human carcinoma cells, which is consistent with other observations that insulin and epidermal growth factor may have some common effects. Insulin stimulation of CKII activity was due to an increase in the maximal velocity of the kinase; the apparent Km for peptide substrate was not altered. Enhanced activity did not appear to result from increased synthesis of CKII protein, because cycloheximide did not block the effect and because an immunoblot developed with antiserum to CKII showed no effect of insulin on the cytosolic concentration of CKII. Because insulin-stimulated CKII activity was maintained after chromatography of cell extracts on Sephadex G-25, it is unlikely that the effect is mediated by a low-molecular-weight activator of the kinase. Rather, the results are consistent with the possibility that insulin activates CKII by promoting a covalent modification of the kinase.
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PMID:Activation of casein kinase II in response to insulin and to epidermal growth factor. 332 Oct 56

Acid/ethanol extracts of normal rat liver and rat ascites hepatoma cells (AH 130) were found to inhibit the epidermal growth factor (EGF)-dependent colony formation of Balb/c 3T3 cells. The extracts did not inhibit the growth of the 3T3 cells in monolayer culture. The inhibitory activities were heat- and acid-stable and were not inactivated by the treatment with pronase, RNase and DNase. Upon ultrafiltration, a considerable fraction of the inhibitory activities were found in the fraction corresponding to the molecular size ranging from 3.5 to 10 Kd, in which no appreciable TGF-beta activity was detected.
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PMID:Anchorage-independent cell growth-inhibiting factor(s) from normal rat liver and ascites hepatoma. 349 Sep 20

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