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)

Plasminogen activator inhibitor-1 (PAI-1), a M(r) 50,000 serine protease inhibitor, is the major physiological inhibitor of plasminogen activation. Quiescent rat hepatocytes do not express the PAI-1 gene in vivo; however, PAI-1 is synthesized both by primary cultures of rat hepatocytes and by hepatoma cells in vitro. Furthermore, PAI-1 is expressed by fibroblastic cells in vitro, in response to mitogen stimulation, suggesting a possible connection between hepatocyte PAI-1 expression and cell proliferation. To determine whether PAI-1 is an early growth response gene in hepatocytes in vivo, we analyzed its expression in regenerating rat liver. Male rats underwent partial (70%) hepatectomy (PH) or sham operation (SO), and liver samples were analyzed by Northern blot analysis and in situ hybridization. PAI-1 mRNA was not present at time 0 h, nor at any other time in SO rats but was induced rapidly in regenerating livers, peaking at 2 h and declining to negligible levels by 8 h posthepatectomy. This induction was not inhibited by cycloheximide. In situ hybridization analysis localized PAI-1 transcripts to hepatocytes. Immunohistochemical analysis demonstrated PAI-1-specific staining in hepatocytes in the livers of both PH and SO rats, but the temporal and spatial distribution profiles differed between PH and SO rats. Our studies demonstrate that PAI-1 is an immediate early response gene, transiently expressed in regenerating liver, expression of which may be important in hepatocyte growth and proliferation in vivo.
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PMID:Plasminogen activator inhibitor-1 is an immediate early response gene in regenerating rat liver. 811 25

Protein C inhibitor (PCI), a plasma serine protease inhibitor, neutralizes activated protein C, which plays an important role in the regulation of blood coagulation. We determined the organization of the gene coding for this inhibitor. A human genomic phage DNA library was screened using the 32P-labeled protein C inhibitor cDNA as a probe and a phage genomic clone that contained the full length of the inhibitor gene, including the 5'- and 3'-flanking region, was isolated. The gene was characterized by restriction enzyme mapping, Southern blotting and sequencing all the coding parts as well as the 5'- and 3'-flanking regions. The protein C inhibitor gene spanned about 13 kilobase pairs and consisted of 5 exons and 4 introns as do the genes for human alpha 1-antitrypsin, alpha 1-antichymotrypsin, heparin cofactor II and rat angiotensinogen. All exon-intron boundaries agreed with the GT-AG rule. The 5'-flanking region contained no TATAA or CCAAT sequences, but contained the putative Sp-1 and AP-2 binding sites in the 5'-upstream region, which indicated promoter activity in human hepatoma cell line, HepG2, using the luciferase gene as a reporter gene and the polyadenylation site in the 3'-downstream region. A transcription initiation site was identified by primer extension analysis using template human liver poly(A)RNA. The length of the non-coding exon I of this inhibitor gene was similar to those of the other serine protease inhibitors as described above. These findings suggest that the protein C inhibitor gene evolved from a common ancestor gene of these serine protease inhibitors.
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PMID:Gene organization of human protein C inhibitor, a member of SERPIN family proteins encoded in five exons. 814 99

The mechanism by which GH transmits a signal to the nucleus via its membrane-bound receptor is unknown. To study this process, Buffalo rat liver (BRL), rat hepatoma (FAO), human hepatoma (HepG2) and Chinese hamster ovary (CHO) cell lines were transfected with GH receptor cDNA, and stable clones expressing GH receptor mRNA and protein were selected. From previous in vivo studies it is known that GH regulates the expression of the rat hepatic serine protease inhibitor (SPI) 2.1 gene at the transcriptional level. However, in all the cell lines tested, SPI gene expression was less than 0.2% of that measured in rat liver, and GH did not affect the expression of the endogenous SPI gene in GH receptor-expressing cells. A 45 bp GH-responsive element (GHRE) has previously been defined in the SPI 2.1 gene. A construct containing six repeats of this GHRE was assembled with the thymidine kinase promoter and a chloramphenicol acetyl transferase (CAT) reporter gene. Transient transfection of this reporter gene resulted in GH stimulation of CAT activity in all GH receptor-transfected cell lines. A 33-fold induction was measured in the GH receptor-expressing BRL cells. Induction of CAT activity was observed after 8 h of GH treatment in the BRL-GHR638 cell line. Stable BRL cell lines expressing GH receptors with carboxy-terminal truncations (GHR380 and GHR454) did not show increased CAT activity on GH stimulation. This suggests that more than half of the intracellular domain of the GH receptor is required to activate transcription of the SPI 2.1 gene.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Growth hormone (GH) regulation of a rat serine protease inhibitor fusion gene in cells transfected with GH receptor cDNA. 818 13

Tissue factor pathway inhibitor (TFPI) is a plasma serine protease inhibitor that directly inhibits coagulation factor Xa and regulates blood coagulation via inhibition of factor VIIa-tissue factor enzymatic activity. We previously demonstrated that >90% of TFPI bound to a single population of low affinity binding sites on hepatoma cells (2 x 10(6) sites/cell, Kd = 30 nM), and, that following binding, the low density lipoprotein receptor-related protein (LRP) mediated TFPI uptake and degradation. We subsequently reported heparan sulfate proteoglycans (HSPGs) constitute a second receptor system involved in TFPI catabolism. In the present study, mouse embryonic fibroblasts heterozygous and homozygous-negative for disruption of the LRP gene were used to further examine the roles of LRP and HSPGs in TFPI endocytosis. We demonstrate that LRP is absolutely required for degrading 125I-TFPI. LRP heterozygous and homozygous-negative cells bind 125I-TFPI similarly, and the 39-kDa protein, an inhibitor of all known ligand interactions with LRP, does not alter 125I-TFPI binding to these cells. TFPI can be cross-linked to LRP on [35S]cysteine-labeled hepatoma and LRP-heterozygous cells but not LRP-negative cells. When HSPGs are blocked with protamine, 125I-TFPI binds in a 39-kDa protein-inhibitable manner to 41,000 high affinity sites/hepatoma cell (Kd = 2.3 nM). Blockade of HSPGs with protamine results in significantly more 125I-TFPI degradation by LRP-positive cells. TFPI can be cross-linked to LRP in the absence and presence of protamine. However, in the presence of protamine, relative to the total pool of cross-linked proteins, 5-fold more TFPI is cross-linked to LRP. Finally, we show TFPI inhibits 125I-alpha2-macroglobulin-methylamine binding to hepatoma cells and that carboxyl-terminal residues 115-319 of the 39-kDa protein inhibit both 125I-TFPI degradation and binding when binding conditions contain protamine. Together, our results suggest that while the majority of TFPI binds to cell surface HSPGs, LRP can function independently from HSPGs in the binding and uptake of TFPI.
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PMID:The low density lipoprotein receptor-related protein can function independently from heparan sulfate proteoglycans in tissue factor pathway inhibitor endocytosis. 882 19

Secretory leukoprotease inhibitor (SLPI) is a serine protease inhibitor, produced locally in respiratory and genital glands, but not in the liver. In the present study the promoter region of this gene was analyzed to better understand the molecular mechanisms involved in transcriptional regulation. DNase-I hypersensitive sites were detected within 1 kbp upstream of exon I in chromatin structures of type II pneumocyte cell line A549 and utero-cervical cell line HeLa, both of which express SLPI mRNA transcripts. The function of the SLPI promoter encompassing these DNase-I hypersensitive sites has been studied by deletion analysis with the luciferase gene as a transient expression vector. In this analysis, we found three transcription control regions that function in A549 cells but not in nonlung cell lines, such as HeLa and hepatoma Hep G2. Among three cis-regulatory regions, a proximal 41-bp region (-132 to -92 bp relative to the transcription start site) is responsible for the most striking magnitude of transcriptional activity. This region corresponds to the transcriptional activating sequence detected in another lung cell line, HS-24, indicating that this 41-bp sequence is required for lung cell-specific expression. An electrophoretic mobility shift assay demonstrated that this 41-bp promoter region contains an 11-bp recognition sequence for two nuclear binding proteins, one of which is abundant in lung cell lines, and the other in nonlung cell lines. These results suggest that the ratio of these two nuclear binding proteins confers the cell type specificity on the expression pattern of the SLPI gene.
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PMID:Cis-acting region associated with lung cell-specific expression of the secretory leukoprotease inhibitor gene. 930 23

Wild-type (wt) p53 frequently induces apoptosis when expressed in tumor cells whereas mutant p53 acts as an oncoprotein and consequently, stimulates cell proliferation. We report here exceptions to that rule. p53 conformational mutant 175H and DNA contact mutant 273H provoke apoptosis in human p53-deficient Hep3B hepatoma cells with delayed kinetics relative to wt p53. Similarly, c-Myc strongly stimulates apoptosis in these cells. In contrast, viral oncoproteins E1A and E7, and the cellular oncoprotein MDM-2, fail to elicit cytocidal responses. Efficient apoptotic cell death by mutant p53 requires oligomerization as 175H and 273H with deletions between amino acid residues 326 and 347 of the oligomerization domain are nontoxic. Apoptosis by mutant or wt p53 was significantly inhibited by the serine protease inhibitor AEBSF but not by the inactive analog AEBSA. Together, these results suggest that a wt p53-independent control mechanism is operational in Hep3B cells that eliminates cells upon sensing illegitimate proliferation signals originating from certain oncoproteins, including mutant p53 and Myc. We suggest that some tumor cell types lack p53 altogether because they tolerate neither wild-type nor mutant forms of the protein.
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PMID:Mutant p53 can provoke apoptosis in p53-deficient Hep3B cells with delayed kinetics relative to wild-type p53. 1003 Jun 75

The genes encoding alpha1-antitrypsin (alpha1AT, gene symbol PI) and corticosteroid-binding globulin (CBG) are part of a cluster of six serine protease inhibitor (serpin) genes located on human chromosome 14q32.1. Both genes are actively transcribed in the liver and in human hepatoma cells, but they are not expressed in most other cell types. In this study we mapped DNase I-hypersensitive sites (DHSs) in an approximately 130-kb region of 14q32.1 that includes both genes. The distributions of DHSs in expressing (HepG2) vs nonexpressing (HeLa S3) cells were very different: HepG2 cells displayed 29 DHSs in this interval, but only 7 of those sites were present in HeLa cells. To determine the chromatin organization of activated or extinguished serpin alleles, we transferred human chromosome 14 into rat hepatoma cells or fibroblasts, respectively. Human alpha1AT and CBG gene expression was activated in rat hepatoma microcell hybrids containing human chromosome 14, but extinguished in rat fibroblast hybrids with the same genotype. DHS mapping in these microcell hybrids demonstrated that the chromatin structure of the entire 130-kb region was reorganized in microcell hybrids, and the distributions of DHSs in activated and extinguished alleles recapitulated those of expressing and nonexpressing cells, respectively. Thus, microcell hybrids provide a system in which reproducible changes in gene activity and long-range chromatin organization can be induced experimentally. This provides a basis for studying the effects of targeted modifications of the alpha1AT and CBG loci on the regulation of gene activity and chromatin structure.
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PMID:Long-range chromatin reorganization of the human serpin gene cluster at 14q32.1 accompanies gene activation and extinction in microcell hybrids. 1003 82

Hepatocyte-specific expression of the alpha1-antitrypsin (alpha1AT) gene requires the activities of two liver-enriched transactivators, hepatocyte nuclear factors 1alpha and 4 (HNF-1alpha and HNF-4). The alpha1AT gene maps to a region of human chromosome 14q32.1 that includes a related serine protease inhibitor (serpin) gene encoding corticosteroid-binding globulin (CBG), and the chromatin organization of this approximately 130-kb region, as defined by DNase I-hypersensitive sites, has been described. Microcell transfer of human chromosome 14 from fibroblasts to rat hepatoma cells results in activation of alpha1AT and CBG transcription and chromatin reorganization of the entire locus. To assess the roles of HNF-1alpha and HNF-4 in gene activation and chromatin remodeling, we transferred human chromosome 14 from fibroblasts to rat hepatoma cell variants that are deficient in expression of HNF-1alpha and HNF-4. The variant cells failed to activate either alpha1AT or CBG transcription, and chromatin remodeling failed to occur. However, alpha1AT and CBG transcription could be rescued by transfecting the cells with expression plasmids encoding HNF-1alpha or HNF-4. In these transfectants, the chromatin structure of the entire alpha1AT/CBG locus was reorganized to an expressing cell-typical state. Thus, HNF-1alpha and HNF-4 control both chromatin structure and gene activity of two cell-specific genes within the serpin gene cluster at 14q32.1.
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PMID:The HNF-4/HNF-1alpha transactivation cascade regulates gene activity and chromatin structure of the human serine protease inhibitor gene cluster at 14q32.1. 1046 4

Plasminogen activator inhibitor (PAI)-1, a serine protease inhibitor, inactivates urokinase-type plasminogen activator (uPA) and regulates degradation of the extracellular matrix; whether it functions for or against tumor progression, however, has been the subject of controversy. To assess the role of PAI-1 in invasion and proliferation of hepatocellular carcinoma (HCC) cells, HLE cells were transfected with a vector capable of expressing an antisense PAI-1 transcript. Analysis of seven stably transfected clones (PAI-1-) showed reductions of 81% in PAI-1 mRNA by northern blot analysis and 63% in the cellular PAI-1 antigen level by enzyme-linked immunosorbent assay (ELISA). There was no change in the levels of secreted PAI-1 or PAI-2. The activity of cellular uPA increased by 54%, without change in the protein level or the secreted uPA activity evaluated by ELISA. Morphologically, PAI-1 antisense induced a spindle shape with narrower cytoplasmic processes in HLE cells. The forced inhibition of PAI-1 increased the invasion and the growth of PAI-1- cells by 75% and 82%, respectively. These results suggest that PAI-1 plays a role in inhibiting invasion and proliferation, and the balance between uPA and PAI-1 expression is important to assess the invasiveness of HCC cells.
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PMID:Inhibitory role of plasminogen activator inhibitor-1 in invasion and proliferation of HLE hepatocellular carcinoma cells. 1047 Feb 87

The human gene encoding alpha1-antitrypsin (alpha1AT, gene symbol PI ) is highly expressed in the liver and in cultured hepatoma cells and, to a lesser extent, in macrophages, where transcription originates from a separate upstream promoter. alpha1AT maps to a region of human chromosome 14q32.1 that includes a related serine protease inhibitor (serpin) gene that encodes corticosteroid-binding globulin (CBG). We recently reported the chromatin organization of this approximately 130 kb region, as defined by DNase I hypersensitive sites (DHSs) and matrix-attachment regions, in expressing and non-expressing cells. Furthermore, we demonstrated that transfer of human chromosome 14 from non-expressing fibroblasts to rat hepatoma cells resulted in activation of both alpha1AT and CBG transcription and gene activation was accompanied by long range chromatin reorganization of the entire region. In this study, we transferred human chromosome 14 from fibroblasts to mouse macrophages and documented activation of alpha1AT but not CBG gene expression. RT-PCR experiments indicated that transcription of the human alpha1AT gene in the microcell hybrids initiated at the macrophage promoter. Furthermore, DHS mapping experiments revealed a distinctive chromatin configuration of the locus that resembled the structure found in human macrophage-like cell lines, with many DHSs around alpha1AT but few in CBG. Thus, mouse macrophage cell lines will provide a useful cell type to study the effects of targeted modifications of the human alpha1AT-CBG locus on the regulation of cell-specific gene activity and chromatin structure.
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PMID:Differential regulation of gene activity and chromatin structure within the human serpin gene cluster at 14q32.1 in macrophage microcell hybrids. 1073 96

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