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)

Tissue-type plasminogen activator (t-PA), a serine protease that catalyzes the initial and rate-limiting step in the fibrinolytic cascade, is cleared rapidly in vivo by the liver. Using chemical crosslinking, we have recently identified a plasminogen-activator inhibitor type 1 (PAI-1)-independent t-PA clearance receptor on rat hepatoma MH1C1 cells with a relative molecular mass of approximately 500 kDa. Another recently identified membrane receptor, low density lipoprotein receptor-related protein/alpha 2-macroglobulin receptor (LRP/alpha 2MR), was also detected on MH1C1 hepatoma cells by using immunoprecipitation with anti-LRP/alpha 2MR antibody. When analyzed by SDS/PAGE, we found the t-PA receptor identified on MH1C1 cells comigrated with the large subunit of LRP/alpha 2MR. The t-PA receptor was immunoprecipitated by an anti-LRP/alpha 2MR antibody after chemical crosslinking of specifically bound 125I-labeled t-PA to its receptor. Through chemical crosslinking studies, we found that t-PA and methylamine-activated alpha 2-macroglobulin could bind to LRP/alpha 2MR simultaneously without competing with one another for binding, suggesting that the two ligands bound to two independent sites on the LRP/alpha 2MR molecule. Furthermore, a 39-kDa protein, which modulates ligand binding to LRP/alpha 2MR, was also found to inhibit t-PA binding to its receptor. These data thus show that the t-PA clearance receptor identified on MH1C1 hepatoma cells is LRP/alpha 2MR.
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PMID:Low density lipoprotein receptor-related protein/alpha 2-macroglobulin receptor is an hepatic receptor for tissue-type plasminogen activator. 150 54

Co-secretion of plasminogen activator inhibitor type 1 (PAI-1) and urokinase-type plasminogen activator was identified in short-term cultures of primary type II pneumocytes isolated from adult rats. After separation by sodium dodecyl sulfate (SDS)-PAGE and reverse fibrin autography (reverse FA) of serum-free conditioned medium (SFCM), cellular lysate, and extracellular matrix (ECM), the inhibitor was seen as a zone of spared lysis at an apparent molecular mass of 46 to 48 kD. The plasminogen activator (PA) activity could only be visualized when human instead of bovine fibrin was used in the indicator gel. It presented as a single band of lysis at an apparent molecular mass of 45 kD when tested by regular FA and was found adjacent to PAI-1 when examined by reverse FA. Immunoblot analysis of type II pneumocyte SFCM, cellular lysate, and ECM revealed two bands at 46 and 48 kD, consistent with the apparent molecular masses (Mr) reported for rat PAI-1 from HTC hepatoma cells. Type II pneumocyte PAI-1 formed SDS-resistant complexes with tissue-type and urokinase-type plasminogen activator and was found to be stable to acid, to short-term exposure to heat, and to the denaturants guanidine HCl and SDS, while being sensitive to treatment with alkali and urea. When levels of type II pneumocyte PAI-1 activity were monitored over time during short-term culture conditions, the level of PAI-1 in SFCM remained stable, whereas activity in the lysate accumulated and activity in the ECM declined.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Plasminogen activator inhibitor type 1 production by rat type II pneumocytes in culture. 154 Mar 77

Hyperthermia is a clinical sign of inflammation and constitutes in itself an adaptive defense mechanism. The fibrinolytic system, a highly regulated proteolytic system, is involved in inflammatory processes. Plasminogen activator inhibitor 1 (PAI-1) is the principal inhibitor of the two activators of the fibrinolytic system: tissue- and urokinase-type PAs (t-PA and u-PA). Our present paper provides the first evidence that hyperthermia can directly induce PAI-1. A moderate heat stress, sufficient to induce heat shock protein 70 mRNA approximately 100-fold, resulted in a two- to three-fold increase in functionally active PAI-1 in the conditioned medium of human HT-1080 fibrosarcoma and Hep G2 hepatoma cells. Exposure of these cells to 42 degrees C led to a similar two-fold and two- to five-fold induction of PAI-1 mRNA expression in HT-1080 and Hep G2 cells, respectively, as has been determined by using both oligo d(T) selected and total RNA preparations. These results suggest that the observed increase in PAI-1 accumulation is due to an induction of PAI-1 biosynthesis. Run-on transcription analysis indicates that the induction of PAI-1 biosynthesis by hyperthermia is mediated by a stimulation of PAI-1 gene transcription. No significant effect of hyperthermia was found on t-PA or u-PA at the level of antigen accumulation, mRNA, and gene transcription in human HT-1080 fibrosarcoma cells. These results point to an additional regulatory mechanism of fibrinolysis in the context of inflammation.
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PMID:Induction of plasminogen activator inhibitor 1 biosynthesis by hyperthermia. 165 90

The acute phase behaviour of the fast inhibitor of tissue-type plasminogen activator (PAI-1) in vivo has been attributed to increased synthesis by endothelial cells. However, most other acute phase proteins in vivo are synthesized in the liver, which process is regulated by cytokines and can be studied in the hepatoma derived cell line HepG2. In this study, we investigated whether the synthesis of PAI-1 by HepG2 cells is regulated by the cytokines recombinant IL-1, rIL-6 and rTNF. Recombinant IL-1 and rTNF each increased PAI-1 synthesis by HepG2 cells two to three fold, whereas rIL-6 hardly had an effect. Mixtures of rIL-1, rIL-6 and rTNF increased PAI-1 synthesis up to eleven fold. The effects observed were not due to non-specific effects on HepG2 cell metabolism, since synthesis of alpha-2-antiplasmin was not effected by any of those cytokines, whereas fibrinogen synthesis was increased three to four fold by rIL-6, but was unaffected by rIL-1. Thus, our results demonstrate that synthesis of PAI-1 by HepG2 cells is regulated by cytokines and implicate that the acute phase behaviour of PAI-1 in vivo at least in part may be due to an increased synthesis by the liver.
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PMID:PAI-1 synthesis in the human hepatoma cell line HepG2 is increased by cytokines--evidence that the liver contributes to acute phase behaviour of PAI-1. 171 Dec 45

We have reported previously that incubation of HTC rat hepatoma cells with the synthetic glucocorticoid dexamethasone causes a 90% decrease in tissue-type plasminogen activator (tPA) activity secondary to a 4-fold increase in plasminogen activator inhibitor-1 (PAI-1) mRNA accumulation. Dexamethasone also induces a modest and transient increase in tPA mRNA. The cyclic nucleotide analog 8-bromo-cAMP (cA) causes a greater than 50-fold increase in PA activity, the result of a 90% decrease in PAI-1 and a sustained 2-fold increase in tPA mRNA accumulation. Dexamethasone and cA in combination cause a 150-fold increase in PA activity, the result of an 80% decrease in PAI-1 and a synergistic 15-fold increase in tPA mRNA. To determine the mechanism of this complex hormonal regulation, we have examined rates of synthesis and decay of PAI-1 and tPA mRNAs. Here we report that dexamethasone induces a 5-fold increase in PAI-1 gene transcription and does not significantly alter PAI-1 message decay; PAI-1 mRNA has a half-life of about 4 h in both untreated and dexamethasone-treated cells. In contrast, cA regulates PAI-1 mRNA by both decreasing the rate of PAI-1 gene transcription by 60% and accelerating the rate of PAI-1 message decay. Regulation of tPA by cA, both alone and in combination with dexamethasone, occurs primarily at the level of transcription. Dexamethasone and cA-induced tPA mRNA has a half-life of 2.75 h; tPA mRNA degradation is significantly inhibited by either cycloheximide or actinomycin-D.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Transcriptional and posttranscriptional regulation of type 1 plasminogen activator inhibitor and tissue-type plasminogen activator gene expression in HTC rat hepatoma cells by glucocorticoids and cyclic nucleotides. 173 71

The binding of t-PA-PAI-1 to human hepatocytes at 4 degrees C reached a maximum at 2 h. Scatchard analysis indicated 74,000 +/- 11,000 high-affinity binding sites for complex per human hepatocyte, with a Kd of 0.87 +/- 0.09 nM. Almost identical results were achieved with the human hepatoma cell line Hep G2. Binding of [125I]t-PA-PAI-1 complex was unaffected by high concentrations of unlabelled t-PA, PAI-1, u-PA or u-PA-PAI-1 complex; only t-PA-PAI-1 complex competed for binding. Hepatocyte-bound t-PA-PAI-1 was internalized and degraded at 37 degrees C. Thus, hepatocytes have a specific t-PA-PAI-1 receptor that participates in clearance of this complex.
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PMID:The receptor for tissue plasminogen activator (t-PA) in complex with its inhibitor, PAI-1, on human hepatocytes. 184 16

Interleukin-1 (IL-1) release from monocyte-macrophages (Mo) appears dependent on pericellular proteolysis mediated by plasmin. Thus plasminogen activator inhibitors (PAI) which bind the serine proteases responsible for the conversion of plasminogen to plasmin, may inhibit IL-1 release from Mo. We have examined the effect of purified PAI from a hepatoma cell line Hep G2, on IL-1 release from Mo with secondary effects on lymphocyte proliferation in vitro. Fast acting inhibitors of both urokinase (u-PA) and tissue plasminogen activator (two chain t-PA) were noted in harvest fluids of Hep G2 cells. These inhibitors were stable at pH 3 but lost activity at 45 degrees C. They were SDS-stable and migrated with Mr53 and 104 kDa. These properties conformed to characteristics of type-1 plasminogen activator inhibitor (PAI-1). Partially purified PAI-1 added to human Mo cultured on 125I fibrin layer both in the presence and absence of plasminogen inhibited secretion of IL-1 by Mo in response to LPS. This effect, however, did not correlate with the inhibition of plasminogen dependent fibrinolysis. This suggested a degree of sequestration and inaccessibility of membrane bound u-PA of LPS activated Mo to PAI-1. PAI-1, in addition, inhibited mitogen stimulated peripheral blood mononuclear cell (PBMC) proliferation at similar concentration ranges. This effect was abrogated by the addition of specific antisera to PAI-1. PAI-1 may be released as part of an acute phase response. In addition to influencing fibrinolysis, PAI-1 may constitute a negative feedback pathway on Mo IL-1 release and subsequent immune activation in vivo.
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PMID:Monocyte-macrophage release of IL-1 is inhibited by type-1 plasminogen activator inhibitors. 196 70

Tissue-type plasminogen activator (t-PA) has a short half-life in the circulation because the enzyme is rapidly cleared by the liver. This short review summarizes recent literature concerning mechanisms of uptake and degradation of t-PA in the liver. In vivo studies in rats show that degradation takes place via a lysosomal pathway. Saturation of the uptake system at high t-PA concentrations suggests a receptor-mediated mechanism. Competition experiments with various glycoproteins indicate that the asialoglycoprotein receptor is not involved, but they point to a role for the mannose receptor, which recognizes t-PA via its high mannose-type oligosaccharide on the first kringle domain. Both in vivo and in vitro studies with isolated liver cells demonstrate that parenchymal cells, as well as liver endothelial cells, are involved in the clearance of t-PA. Parenchymal cells, as the hepatoma cell line Hep G2, endocytose t-PA via a still unknown, possibly t-PA specific receptor, while liver endothelial cells catabolize t-PA via the mannose receptor.
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PMID:Receptor-mediated endocytosis of tissue-type plasminogen activator (t-PA) by liver cells. 210 99

Previous studies have demonstrated that plasma tissue plasminogen activator (t-PA) level was elevated in patients with liver disease. In this study, t-PA antigen levels were investigated in patients with acute hepatitis (AH; N = 12), chronic hepatitis (CH; N = 8), compensated liver cirrhosis (CLC; N = 40), decompensated liver cirrhosis (DLC; N = 23) and hepatocellular carcinoma (HCC; N = 35). The increased t-PA levels (higher than 14 ng/ml) were found in 33% (4/12) of AH on the early hospital days, 25% (2/8) of CH, 45% (18/40) of CLC and 91% (21/23) of DLC, and 60% (21/35) of Hcc cases. In patient with LC, the correlations between t-PA levels and serum total bilirubin (T.Bill) and hepatic synthetic functions were investigated. The results were that the t-PA levels correlated positively with T. Bil and negatively with liver synthetic functions such as albumin, protein C and choline-esterase, indicating that t-PA increased almost in proportion to the deterioration of hepatic function. Serial determination of t-PA in patients with HCC treated by transcatheter arterial embolization (TAE) revealed that TAE failed to normalize the t-PA levels. In one case of HCC complicated with disseminated intravascular coagulation (DIC), t-PA showed a marked increase at acute phase of DIC and subsequent decrease after the successful treatment for DIC by gabexate mesilate (FOY) infusion. These results suggest that increased t-PA in liver disease is due mainly to deterioration of hepatic function, and that secondary fibrinolytic state, such as DIC, is also a contributing factor.
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PMID:[Evaluation of plasma tissue plasminogen activator (I-PA) levels in patients with liver diseases]. 210 6

Plasminogen activator inhibitor type-1 (PAI-1) can modify fibrinolytic activity in vitro and in vivo. The present study was performed to determine whether pharmacologic concentrations of tissue-type plasminogen activator (t-PA) can initiate negative feedback by stimulating PAI-1 synthesis. In both human hepatoma cells (Hep G2) and human umbilical vein endothelial cells (HUVEC), t-PA increased the total concentrations and appearance of newly synthesized protein in conditioned media of free PAI-1 and PAI-1 complexed with t-PA in a dose and time dependent fashion judging from results after immunoprecipitation of metabolically labeled PAI-1. The t-PA effect was not attributable simply to release of stored or matrix-bound PAI-1. In HUVEC, Northern blot analyses indicated that t-PA increased steady-state levels of PAI-1 mRNA two-fold. In contrast PAI-1 mRNA expression was not increased in Hep G2 cells. Thus, mechanisms of stimulation appeared to differ in the two cell lines. The results obtained are consistent with the hypothesis that increased PAI-1 synthesis and secretion in response to t-PA may limit or attenuate fibrinolysis locally or systemically in vivo.
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PMID:Induction of synthesis of plasminogen activator inhibitor type-1 by tissue-type plasminogen activator in human hepatic and endothelial cells. 212 71

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