Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04637 (p53)
 77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ethanol consumption represents a major risk factor for cancer development, and a significant fraction of hepatocarcinomas arises in alcoholic liver cirrhosis. Increasing evidence indicates that ethanol acts as a tumor promoter on genetically initiated cells, by increasing the intracellular concentration of reactive oxygen species and promoting tissue necrosis/regeneration and cell proliferation. The tumor suppressor p53 restrains the expansion of carcinogen-initiated cells by inducing cell cycle arrest and apoptosis; accordingly, p53-deficient mice develop spontaneous and chemically induced neoplasms at a much higher frequency than normal mice. In normal mice exposed to a subacute (3 weeks) ethanol intoxication, a significant increase in the number of apoptotic hepatocytes was observed in concomitance with the up-regulation of the mitochondrial superoxide scavenger MnSOD, a reliable indicator of oxidative stress. Cell death occurred in the absence of liver inflammation and necrosis. Ethanol-induced hepatocyte apoptosis was completely abrogated in the p53 null background, suggesting that the tumor suppressor is necessary for hepatocyte death by ethanol. Accordingly, p53 -/- MEF were, unlike wild type cells, completely insensitive up to 0.5M ethanol in the culture medium. Strikingly, marked and widespread signs of dysplasia, with nuclear pleomorphisms and initial loss of normal architecture, heralding malignant transformation, were scored in all the mutant mice exposed to ethanol, but not in the control-fed littermates nor in ethanol-fed normal mice. These observations suggest that p53-dependent apoptosis restrains the tumorigenic effect of ethanol on liver cells, in agreement with the frequent loss of p53 function in HCC, and reveal an unexpected carcinogenic potential of alcohol which appears to be independent from the induction of cirrhosis and hepatocyte regeneration.
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PMID:Abrogation of hepatocyte apoptosis and early appearance of liver dysplasia in ethanol-fed p53-deficient mice. 1552 6

Hepatocellular carcinoma is one of the leading causes of cancer death worldwide. The etiology of liver cancer is multifactorial, and infection with hepatitis B virus (HBV), whose pathogenesis is exacerbated by the acquisition of mutations that accelerate carcinogenesis, or hepatitis C virus (HCV) and dietary exposure to aflatoxin B(1) all contribute to elevating one's risk for this disease. In this study, we sought to determine the contributions of these agents by measuring the occurrence of an HBV 1762(T)/1764(A) double mutation, an aflatoxin-specific 249(G-->T) mutation of the p53 gene, and HCV in plasma of 34 HCC cases and 68 age- and gender-matched controls, and in 25 liver tumors from northern Thailand. In total, 14 cases, 5 controls, and 19 tumors had detectable levels of HBV DNA. All 14 cases, 2 controls (2.9%), and 17 tumors (89.5%) were positive for the HBV double mutation. Nine cases (26.5%), 10 controls (14.7%), and 6 tumors (24%) were positive for the p53 mutation. Five cases (14.7%), no controls, and 4 tumors (16%) had both mutations. The median age of HCC diagnosis in these 5 cases was 34 years versus 51 years for other cases. Five cases (14.7%) and 1 control (1.5%) were HCV enzyme immunoassay positive. Thus, specific HBV, HCV, and aflatoxin biomarkers reveal the complexity of risks contributing to HCC in northern Thailand and suggest further application of these biomarkers as intermediate end points in prevention, intervention trials, and etiologic investigations.
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PMID:Hepatitis B 1762T/1764A mutations, hepatitis C infection, and codon 249 p53 mutations in hepatocellular carcinomas from Thailand. 1573 61

VEGF, a potent angiogenic growth factor, is up-regulated in many tumors including human breast tumors and stimulates growth of vascular networks that support tumor growth and metastasis. We previously reported that natural and synthetic progestins (P) increased VEGF mRNA and protein levels in progesterone receptor (PR) containing T47-D human breast cancer cells in a PR dependent manner, but not in PR positive ZR-75 and MCF-7, or in PR negative MDA-MB-231 cells. This indicated that factors beside PR are involved in progesterone-dependent VEGF regulation. We, therefore, tested additional tumor cell lines reported to contain PR for progestin-dependent VEGF induction. Out of nine PR-positive breast tumor cell lines, progestins induced VEGF in three cell lines that lack wild-type p53 (T47-D, BT-474, and HCC-1428) but not in cell lines that contained the wild-type p53 protein. The T47-D and BT-474 cells express mutant p53, while the p53 protein is absent HCC-1428 cells. The anti-progestin RU-486 blocked progestin-dependent induction of VEGF in T47-D and BT-474 cells but not in HCC-1428 cells. However, RU-486 partially blocked medroxyprogesterone acetate-dependent induction of VEGF in HCC-1428 cells. Estrogen receptor (ER) and PR agonists and antagonists also induce VEGF in HCC-1428 cells and this effect was partially blocked by anti-estrogen ICI-182, 780. Progestin-dependent VEGF induction was completely inhibited by PRIMA-1-activated p53 in all cell-types, but progestin-dependent transcription of a progesterone-regulated minimal promoter was only partially inhibited. PRIMA-1 induced activation of p53 in tumor cell lines was confirmed with a p53-responsive p21 reporter plasmid and by detecting increased levels of p21 proteins in cell lysates. PRIMA-1 induced p53 protein in the HCC-1428 cells while levels of mutant p53 protein in T47-D and BT-474 remained unaltered. Progestin-dependent induction of VEGF was also inhibited by stable transfection of wild-type p53 in T47-D cells. These results are consistent with the hypothesis that wild-type p53 blocks progestin-dependent induction of VEGF in breast cancer cells and this may be a novel anti-angiogenic mechanism for controlling the growth of progestin-dependent tumors.
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PMID:p53-dependent inhibition of progestin-induced VEGF expression in human breast cancer cells. 1586 Feb 60

In the present study, the expression of P53 and MDM2 proteins were examined in specimens from a group of 20 patients (9 with primary hepatocellular carcinoma HCC and 11 with liver cirrhosis LC, linked to HBV infections as a major aetiologic factor) by immunohistochemistry. The immunostaining findings were correlated with P53 mutation analysis using PCR-SSCP, PCR-HDF and direct sequencing, and MDM2 amplification studies by differential PCR. P53 immunopositivity was found in 9 out of the 20 (45.0%) cases. Mutations of the P53 gene were detected in 5 (55%) tumors and 3 (27%) LC samples; 7 of these cases revealed P53 immunoreactivity. The mutations were base transitions at codons 175, 245 and 273; no changes were observed at codon 249, characteristic for aflatoxins action. MDM2 immunopositivity was revealed in 9 out of 20 (45.0%) specimens. MDM2 amplification occurred in 4 (44.4%) and 1 (9.1%) cases, HCC and LC specimens respectively; only in 2 tumors (10.0%), which exhibited MDM2 immunoreactivity. Overall, MDM2 positivity was not associated with MDM2 amplification in 7 out of the 20 studied samples (35.0%). Two HCC patients were found to have both gene abnormalities. Either the mutation rate of the P53 gene as well as the amplification level of the MDM2 gene was higher in HCC than in precancerous liver tissue stages. These results support the notion that besides P53 alterations, MDM2 gene deregulation seems to be an important event in hepatocarcinogenesis. Additionally, the mechanism of MDM2-mediated degradation of P53 protein, without involving stabilization and inactivation of P53 gene, should be considered for the understanding of all features of tumor progression processes.
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PMID:A comparative study of P53/MDM2 genes alterations and P53/MDM2 proteins immunoreactivity in liver cirrhosis and hepatocellular carcinoma. 1594 41

Hepatocellular carcinoma is one of the most prevalent tumors worldwide and its incidence is increasing due to hepatitis C virus infection. Other etiologic factors are hepatitis B virus infection, alcoholic liver disease and hemochromatosis. This tumor mainly develops in cirrhotic livers that are true precancerous states. Although mechanisms of hepatocarcinogenesis remain badly known, some signaling pathways are frequently deregulated: inactivation of the p53 tumor suppressor factor in 25% of HCC, activation of the Wnt signaling and the telomerase immortalization enzyme in most of tumors. Hepatitis viruses play a direct oncogenic role by interaction between viral proteins and cellular ones, which control cell homeostasis, or by integration of hepatitis B virus genome into the host genome. Furthermore, hepatitis viruses play an indirect oncogenic role by chronic inflammation and hepatocyte regeneration related to viral hepatopathy. In a near future, a better understanding of virus-specific oncogenic mechanisms should allow us to set up innovative preventive and curative therapeutic strategies.
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PMID:[Epidemiology, natural history and pathogenesis of hepatocellular carcinoma]. 1622 12

Elevated aflatoxin B(1)-albumin adducts (AFB(1)-Alb) have been associated with an increased risk for HCC development. However, there are no studies in humans, correlating albumin adducts in blood with liver DNA adducts. Forty frozen tumor tissues and 39 paired plasma samples from HCC patients were collected in Taiwan, to determine the relationship between albumin adducts in blood and DNA adducts in liver tissue as well as mutations in p53 and methylation of p16. AFB(1)- and polycyclic aromatic hydrocarbon (PAH)-DNA adducts in tissue and albumin adducts in plasma were determined by immunohistochemistry and competitive ELISA, respectively. Plasma AFB(1)-Alb adducts in subjects with low, medium and high levels of AFB(1)-DNA adducts in tumor tissues were 51.0 +/- 36.5, 70.5 +/- 48.1 and 84.9 +/- 48.2 fmol/mg, respectively (p(trend) = 0.05). No significant correlation was found for PAH. Fourteen of 40 (36%) tissues were positive for mutant p53 protein by immunohistochemistry; 11 of 40 tissue DNA samples (28%) were positive for p53 mutations, but not their corresponding plasma DNAs. p16 was methylated in 24 of 40 (62%) tissues and 12 of 39 (32%) plasma DNAs. Significant correlations were observed between AFB(1)-Alb adducts and p53 mutations and p16 methylation. These data suggest that genetic, epigenetic and environmental exposure biomarkers in plasma may help in estimating the risk for the development of HCC.
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PMID:Aflatoxin B1 and polycyclic aromatic hydrocarbon adducts, p53 mutations and p16 methylation in liver tissue and plasma of hepatocellular carcinoma patients. 1657 Feb 75

Due to the development of the imaging techniques and liver surgery, pathologists are encountered more frequently with preneoplastic liver lesions. Well-defined stages of human hepatocarcinogenesis have been distinguished recently. Dysplastic foci represent the earliest stage of this process. Small-cell dysplastic foci are tumor precursors, but the large-cell form of this lesion does not progress further. The next stage is the dysplastic nodule, this larger lesion can be recognized by imaging techniques and gross examination of the specimen. Low- and high-risk forms are distinguished based on the level of cytological and structural atypia. The small hepatocellular carcinomas have a diameter of less than 2 cm by definition. The small HCC of indistinctly nodular type is equivalent of in situ carcinomas in other organs and designated sometimes as early HCC. The small HCC of the distinctly nodular type can be interpreted as advanced cancer despite its small size. The distinction between these lesions can be facilitated by ancillary techniques. The so-called capillarization of the liver sinusoids during the progression is characterized by the increased expression of endothelial markers as CD31 and CD34. Immunostaining for CD44, beta-catenin and p53 has prognostic value. Molecular biological techniques reveal gradual epigenetic and DNA changes during the process of hepatocarcinogenesis. Global gene expression profiling of hepatocellular carcinomas may result in a new classification of this tumor and can reveal new potential therapeutic targets.
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PMID:[Hepatocarcinogenesis in human liver]. 1688 73

Exposures to environmental carcinogens and unhealthy lifestyle choices increase the incidence of breast cancer. One such compound, benzo(a)pyrene (BaP), leads to covalent DNA modifications and the deregulation of gene expression. To date, these mechanisms of BaP-induced carcinogenesis are poorly understood, particularly in the case of breast cancer. We tested the effects of BaP exposure on cellular growth dynamics and DNA methylation in four breast cancer cell lines since disruptions in DNA methylation lead to deregulated gene expression and the loss of genomic integrity. We observed robust time- and concentration-dependent loss of proliferation, S phase and G2M accumulation and apoptosis in p53 positive MCF-7 and T47-D cells. We observed minimal responses in p53 negative HCC-1086 and MDA MB 231 cells. Furthermore, BaP increased p53 levels in both p53 positive cell lines, as well as p21 levels in MCF-7 cells, an effect that was prevented by the p53-specific inhibitor pifithrin-alpha. No changes in global levels of DNA methylation levels induced by BaP were detected by the methyl acceptor assay (MAA) in any cell line, however, methylation profiling by AIMS (amplification of intermethylated sites) analysis showed dynamic, sequence-specific hypo- and hypermethylation events in all cell lines. We also identified BaP-induced hypomethylation events at a number of genomic repeats. Our data confirm the p53-specific disruption of the cell cycle as well as the disruption of DNA methylation as a consequence of BaP treatment, thus reinforcing the link between environmental exposures, DNA methylation and breast cancer.
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PMID:Benzopyrene exposure disrupts DNA methylation and growth dynamics in breast cancer cells. 1692 39

The p16 protein is a cyclin-dependent kinase (CDK) inhibitor, which plays an important role in the regulation of the cell cycle by inactivating the cyclin-dependent kinase (CDK) that phosphorylates the retinoblastoma (Rb) protein. Overexpression of p16 protein has been found in many types of human malignancy. Autoantibody response to p16 in cancer has not been reported. This study determined the extent and frequency of autoantibodies to p16 in diverse malignancies. p16 recombinant protein was expressed in E. Coli BL21 (DE3) cells, and purified using GST fusion protein purification system. In further studies, p16 recombinant proteins were used as antigens in enzyme-linked immunoassay (ELISA) and Western blotting. Sera from 479 cancer patients and 82 normal individuals were analyzed. Autoantibodies to p16 were found in 11.7% in cancer, with significant difference from the normal individuals (p<0.05). The results in this study also showed that the frequency of antibodies to p16 is relatively higher in nasopharyngeal cancer (28.6%), breast cancer (17.1%) and hepatocellular carcinoma (HCC, 21.4%). Of the 56 ELISA positive sera with the anti-p16 antibodies, 85.7% (48/56) had positive reactions in Western blotting. The antigen-antibody absorption experiment was also performed to confirm the specificity of the anti-p16 antibody. In order to increase the frequency of antibody detection in cancer, a combination of three tumor-associated antigens (TAAs) p16, p53 and c-myc were used. Increased frequencies at p<0.01 were found for antibodies to p16 in breast, esophageal, and nasopharyngeal cancer as well as HCC. For antibodies to c-myc, increased frequencies at p<0.01 were found in breast, cervical, colorectal and lung cancer. For antibodies to p53, increased frequencies at p<0.01 were only found in breast cancer. With the successive addition of three TAAs, there was a stepwise increase of positive anti-body reaction up to 44% in breast cancer and 43% in nasopharyngeal cancer. In summary, the results in this study suggest that the combination of antibodies might acquire higher sensitivity for early cancer diagnosis. It is conceivable that auto-antibody profiles involving different panels or arrays of TAAs might be developed in the future and the results could be useful for cancer diagnosis.
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PMID:Humoral immune response to p16, a cyclin-dependent kinase inhibitor in human malignancies. 1701

Cyr61/CCN1 is a secreted extracellular matrix associated protein involved in diverse biological functions and plays multiple roles in tumorigenesis. Cyr61 was down-regulated in HCC tumor tissues as observed in our previous cDNA microarray study, but its potential role in hepatocarcinogenesis is still unclear. To explore the biological significance of Cyr61 in HCC development, over-expression of this gene was established in HCC cell lines and its effects on cell proliferation, adhesion, migration and invasion were analyzed in this study. Cyr61 expression was down-regulated in HCC tumors as measured by quantitative real-time PCR and its protein level was decreased in most HCC cell lines as detected by Western blot. Over-expression of Cyr61 in HCC cell lines suppressed cell proliferation in monolayer and anchorage-independent growth in soft agar, whereas down-regulation of Cyr61 by siRNA increased cell proliferation rate. Over-expression of Cyr61 also significantly enhanced adhesion activities of HepG2 cells to various ECM proteins. Moreover, stably transfected HepG2-Cyr61 cells showed inhibited cell mobility (40-45%) and reduced invasiveness (30-40%) compared to HepG2-Neo controls. Furthermore, upon exposure to 5-Fluorouracil and UV irradiation, Cyr61 was rapidly induced in both p53(+/+) HepG2 and p53(-/-) Hep3B cells. However, only HepG2 cells showed increased G2/M phase arrest with concomitant up-regulation in p53 and p21 levels, suggesting that Cyr61 may play an active role in regulating HCC cell growth involving p53 as well as alternative pathways. In conclusion, we demonstrated that Cyr61 is a tumor suppressor in hepatocarcinogenesis and is involved in DNA damage response.
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PMID:Cyr61/CCN1 is a tumor suppressor in human hepatocellular carcinoma and involved in DNA damage response. 1769 98


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