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 cell cycle inhibitor p21/WAF1/Cip1 is expressed in many cell types and is regulated by p53-dependent and p53-independent mechanisms. p21 is an important regulator of hepatocyte cell cycle, differentiation, and liver development, but little is known about the regulation of its synthesis in hepatocytes. We report herein that the p21 gene is constitutively expressed in human hepatoma HepG2 cells. Deletion analysis of the p21 promoter showed that it contains a distal (positions -2,300/-210) and a proximal (positions -124 to -61) region that act synergistically to achieve high levels of constitutive expression. The proximal region that consists of multiple Sp1 binding sites is essential for constitutive p21 promoter activity in hepatocytes. This region also mediates the transcriptional activation of the p21 promoter by members of the Smad family of proteins, which play important role in the transduction of extracellular signals such as transforming growth factor beta, activin, etc. Constitutive expression of p21 was severely reduced by a C-terminally truncated form of Smad4 that was shown previously to block signaling through Smads. Smad3/4 and to a much lesser extent Smad2/4 caused high levels of transcriptional activation of the p21 promoter. Transactivation was compromised by N- or C-terminally truncated forms of Smad3. By using Gal4-Sp1 fusion proteins, we show that Smad proteins can activate gene transcription via functional interactions with the ubiquitous factor Sp1. These data demonstrate that Smad proteins and Sp1 participate in the constitutive or inducible expression of the p21 gene in hepatic cells.
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PMID:Regulation of the human p21/WAF1/Cip1 promoter in hepatic cells by functional interactions between Sp1 and Smad family members. 961 81

Mutations in the transforming growth factor beta type II receptor (TGFbetaRII), Smad2, and Smad4 genes have been detected in several human cancers. However, there are no reports of mutation analysis of the entire coding regions in these genes in hepatocellular carcinoma, and the roles of these genes in hepatocarcinogenesis remain unknown. We screened 30 hepatocellular carcinomas for mutations of these genes using polymerase chain reaction single-strand conformation polymorphism. We detected no mutations, but did find 3 cases of loss of heterozygosity of chromosome 17p13.1. These results suggest that mutations of the TGFbetaRII, Smad2, and Smad4 genes are rare, and that genetic instability is uncommon in human hepatocellular carcinoma.
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PMID:Mutation analysis of transforming growth factor beta type II receptor, Smad2, and Smad4 in hepatocellular carcinoma. 986 18

TGF-beta is a negative regulator of liver growth. Smad family of genes, as mediators of TGF-beta pathway, are candidate tumor suppressor genes in hepatocellular carcinoma (HCC). We studied 35 HCC and non-tumour liver tissues for possible mutations in Smad2 and Smad4 genes. Three tumours displayed somatic mutations; two in Smad4 (Asp332Gly and Cys401Arg) and one in Smad2 (Gln407Arg) genes. All three mutations were A:T --> G:C transitions suspected to result from oxidative stress as observed in mitochondrial DNA. These observation demonstrate that TGF-beta pathway is altered in hepatocellular carcinoma.
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PMID:Smad2 and Smad4 gene mutations in hepatocellular carcinoma. 1049 Aug 21

A balance between cell proliferation and apoptosis is important for regulating normal liver function. Proteins of the transforming growth factor-beta superfamily are known to be important mediators of apoptosis in the liver. In this study we demonstrate that activin A potently induces apoptotic cell death in a hepatoma cell line, HepG2 cells. To determine the roles of activin receptors and downstream signaling proteins in activin A-induced apoptosis in these cells, the activin signaling pathway was analyzed using the transcription of an activin-responsive reporter gene, p3TP-Lux, as an assay. Although individual activin receptors had little effect on transcriptional activity, coexpression of an activin type I receptor and a type II receptor significantly increased both basal and activin-induced transcriptional activation, with the combination ofreceptors IB and IIB being the most potent. Similarly, expression of individual Smad proteins had only a modest effect on reporter gene activity, but the combination of Smad2 and Smad4 strongly stimulated transcription. Activin signaling induced a rapid relocation of Smad2 to the nucleus, as determined using a green fluorescence protein-Smad2 fusion protein. In contrast, green fluorescence protein-Smad4 remained localized to the cytoplasm unless it was coexpressed with Smad2. In agreement with the transcriptional response assays, overexpression or suppression of activin signaling components in HepG2 cells altered apoptosis. Overexpression of receptors IB and IIB or Smad proteins 2 and 4 stimulated apoptosis, whereas dominant negative mutant forms of the activin type IIB receptor or Smad2 blocked activin-stimulated apoptosis. These studies suggest that signaling from the cell surface to the nucleus through Smad proteins is a required component of the activin A-induced cell death process in liver cells.
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PMID:Activin A-induced HepG2 liver cell apoptosis: involvement of activin receptors and smad proteins. 1069 4

Activation of transforming growth factor-beta (TGF-beta) and activin receptors leads to phosphorylation of Sma- and Mad-related protein 2 (Smad2) and Smad3, which function as transcription factors to regulate gene expression. Smad7 is a regulatory protein which is able to inhibit TGF-beta and activin signalling in a negative-feedback loop, mediated by a direct regulation by Smad3 and Smad4 via a Smad-binding element (SBE) in the Smad7 promoter. Interestingly, we found that the Smad7 promoter was also regulated by nuclear factor kappaB (NF-kappaB), a transcription factor which plays an important role in inflammation and the immune response. Expression of NF-kappaB p65 subunit was able to inhibit the Smad7 promoter activity, and this inhibition could be reversed by co-expression of IkappaB, an inhibitor of NF-kappaB. In addition, the inhibitory activity of p65 was observed in a minimal promoter that contained only the Smad7 SBE and a TATA box, without any consensus NF-kappaB binding site. This inhibitory effect appeared to be common to other TGF-beta- and activin-responsive promoters, since p65 also inhibited the forkhead-activin-signal-transducer-2-mediated activation of a Xenopus Mix.2 promoter, as well as the Smad3-mediated activation of 3TP-lux which contains PMA-responsive elements and a plasminogen-activator-inhibitor-1 promoter. Activation of endogenous NF-kappaB by tumour necrosis factor-alpha (TNF-alpha) was also able to inhibit the Smad7 promoter in human embryonic kidney 293 cells. In human hepatoma HepG2 cells, TNF-alpha was able to inhibit TGF-beta- and activin-mediated transcriptional activation. Furthermore, overexpression of the transcription co-activator p300 could abrogate the inhibitory effect of NF-kappaB on the Smad7 promoter. Taken together, these data have indicated a novel mode of crosstalk between the Smad and the NF-kappaB signalling cascades at the transcriptional level by competing for a limiting pool of transcription co-activators.
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PMID:Repression of transforming-growth-factor-beta-mediated transcription by nuclear factor kappaB. 1083 91

Transforming growth factor-beta (TGF-beta) inhibits cell cycle progression, in part through up-regulation of gene expression of the p21(WAF1/Cip1) (p21) cell cycle inhibitor. Previously we have reported that the intracellular effectors of TGF-beta, Smad3 and Smad4, functionally cooperate with Sp1 to activate the human p21 promoter in hepatoma HepG2 cells. In this study we show that Smad3 and Smad4 when overexpressed in HaCaT keratinocytes lead to activation of the p21 promoter. Activation requires the binding sites for the ubiquitous transcription factor Sp1 on the proximal promoter. Induction of the endogenous HaCaT p21 gene by TGF-beta1 is further enhanced after overexpression of Smad3 and Smad4, whereas dominant negative mutants of Smad3 and Smad4 and the inhibitory Smad7 all inhibit p21 induction by TGF-beta1 in a dose-dependent manner. We show that Sp1 expressed in the Sp1-deficient Drosophila SL-2 cells binds to the proximal p21 promoter sequences, whereas Smad proteins do not. In support of this finding, we show that DNA-binding domain mutants of Smad3 and Smad4 are capable of transactivating the p21 promoter as efficiently as wild type Smads. Co-expression of Smad3 with Smad4 and Sp1 in SL-2 cells or co-incubation of phosphorylated Smad3, Smad4, and Sp1 in vitro results in enhanced binding of Sp1 to the p21 proximal promoter sequences. We demonstrate that Sp1 physically and directly interacts with Smad2, Smad3, and weakly with Smad4 via their amino-terminal (Mad-Homology 1) domain. Finally, by using GAL4 fusion proteins we show that the glutamine-rich sequences in the transactivation domain of Sp1 contribute to the cooperativity with Smad proteins. In conclusion, Smad proteins play important roles in regulation of the p21 gene by TGF-beta, and the functional cooperation of Smad proteins with Sp1 involves the physical interaction of these two types of transcription factors.
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PMID:Role of Smad proteins and transcription factor Sp1 in p21(Waf1/Cip1) regulation by transforming growth factor-beta. 1087 24

Transforming growth factor (TGF)-beta and activin A inhibit the growth and induce cell death of parenchymal liver cells. Smad proteins have recently been identified as intracellular signaling mediators and modulators of TGF-beta family members. This study assessed the role of Smad proteins during the action of TGF-beta and activin A on liver cells using a well-differentiated human hepatoma cell line, Hep3B cells. To study the role of Smad proteins in the anti-proliferative, apoptosis-inducing, activities of TGF-beta and activin A in liver cells, we stably transfected dominant negative Smad2-3SA or Smad3-3SA mutants in Hep3B cells. Transfection of Smad2-3SA or Smad3-3SA abrogated both TGF-beta-induced and activin A-induced growth inhibition and apoptosis of Hep3B cells. Down regulation of Bcl-xL expression by TGF-beta was both Smad2 and Smad3 dependent. We also demonstrate that transfection of Smad7, an intracellular antagonist of Smad signaling, inhibited both TGF-beta- and activin A-induced apoptosis and growth inhibition of these cells. These results suggest that Smad proteins positively and negatively mediate TGF-beta-induced and activin A-induced apoptosis and growth inhibition of liver cells.
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PMID:Involvement of Smad proteins in TGF-beta and activin A-induced apoptosis and growth inhibition of liver cells. 1207 17

Transforming growth factor beta (TGF-beta) is a potent inhibitor of cell proliferation and the loss of responsiveness to TGF-beta may contribute to the development of human cancers. In hepatocellular carcinomas, the potential role of TGF-beta signaling as a tumor suppressor pathway can be illustrated by the presence of mutations in genes encoding TGF-beta receptors or downstream components of this signaling such as Smad2. Although Smad2 is mutated in hepatocellular carcinomas, the alteration of TGF-beta signaling with respect to tumor progression remains to be established. Using the HepG2 hepatoma cells, we showed here that expression of Smad2.Q407R, a missense mutation found in human hepatocellular carcinoma, was less effective than expression of wild-type Smad2 in enhancing the ability of TGF-beta to induce transcription from the Mix.2 promoter. This effect was specifically associated with a decrease in the steady-state level of Smad2.Q407R, presumably because of an enhancement of its ubiquitination and degradation through the proteasome machinery. More importantly, we found that the unstability of Smad2.Q407R was reversed when this mutant undergoes homo-oligomerization with wild-type Smad2 or hetero-oligomerization with Smad3 within the cells. Therefore, our findings allowed us to propose a novel mechanism for suppression of the deleterious effect of a tumor-derived mutation of Smad2, which loss may lead to dysregulated cell proliferation during tumorigenesis.
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PMID:Evidence for a role of Smad3 and Smad2 in stabilization of the tumor-derived mutant Smad2.Q407R. 1270 Feb 38

Resistance to growth inhibitory effects of transforming growth factor (TGF)-beta is a frequent consequence of malignant transformation. On the other hand, serum concentrations of TGF-beta, plasminogen activator inhibitor type 1 (PAI-1), and vascular endothelial growth factor (VEGF) are elevated as tumor progresses. The molecular mechanism of autocrine TGF-beta signaling and its effects on PAI-1 and VEGF production in human hepatocellular carcinoma (HCC) is unknown. TGF-beta signaling involves TGF-beta type I receptor-mediated phosphorylation of serine residues within the conserved SSXS motif at the C-terminus of Smad2 and Smad3. To investigate the involvement of autocrine TGF-beta signal in cell growth, PAI-1 and VEGF production of HCC, we made stable transfectants of human HCC line (HuH-7 cells) to express a mutant Smad2(3S-A), in which serine residues of SSXS motif were changed to alanine. The transfectants demonstrated an impaired Smad2 signaling. Along with the resistance to growth inhibition by TGF-beta, forced expression of Smad2(3S-A) induced endogenous TGF-beta secretion. Moreover, this increased TGF-beta enhanced ligand-dependent signaling through the activated Smad3 and Smad4 complex, and transcriptional activities of PAI-1 and VEGF genes. In conclusion, distortion of autocrine TGF-beta signals in human HCC accelerates their malignant potential by enhancing cell growth as well as PAI-1 and VEGF production.
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PMID:Distortion of autocrine transforming growth factor beta signal accelerates malignant potential by enhancing cell growth as well as PAI-1 and VEGF production in human hepatocellular carcinoma cells. 1270 Jun 66

In the course of screening for inhibitors of transforming-growth factor-beta (TGF-beta) functions we found that conophylline, a vinca alkaloid, inhibited TGF-beta-induced apoptosis in rat hepatoma cells. Because conophylline also inhibited TGF-b-induced promoter activity in mink lung cells, we studied the mechanism of the inhibition in this cell line. Conophylline did not inhibit nuclear translocation of Smad2. Instead, we found that conophylline increased the expression of c-Jun, which had been earlier shown to interact with the corepressor TGIF to suppress the transcriptional activity dependent on Smad2. Conophylline attenuated the interaction between the Smad2 complex and p300 but enhanced that between the Smad2 complex and TGIF. In cells overexpressing c-Jun, suppression of promoter activity induced by TGF-beta and the enhancement of the association of the Smad2 complex with TGIF were also observed. Thus, our data suggest that inhibition of TGF-beta-induced promoter activity by conophylline can be attributed to its potency in modulating the interaction of downstream transcriptional factors via upregulation of c-Jun expression.
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PMID:Suppression of TGF-beta signaling by conophylline via upregulation of c-Jun expression. 1462 94

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