Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Sera from 39,898 blood donors were tested for HTLV-1 antibodies using two enzyme immunoassays (EIA). Sera testing initially reactive (IR) were retested in duplicate by both EIAs. Sera testing repeatedly reactive (RR) were further tested by two Western blots (WB) and by two radioimmunoprecipitation assays (RIPA). There were 176 (0.44%) EIA IR and 68 (0.17%) RR results. On WBs, 10 of the 68 EIA RR sera demonstrated reactivity to HTLV-1 gag gene-encoded core protein p24, with or without reactivity to other core proteins (p19, p28, p53/55). These ten sera were the only ones demonstrating reactivity on RIPAs to other HTLV-1 gene products - env gene-encoded glycoproteins gp46, gp61/68, or tat gene-encoded HTLV-1 transcriptional activator p40x. These ten sera were interpreted as positive for HTLV-1 antibodies. Of the remaining 58 EIA RR sera, 21 were negative by WBs and RIPAs, 37 sera demonstrated reactivity to various combinations of p19, p28, and p53/55, but not to p24 on WBs. These 37 sera were interpreted as "indeterminate", because they were negative by RIPAs. We conclude that: 1) EIA testing and WB/RIPA verification identified 10 (0.025%) HTLV-1 infected individuals among 39,898 low-risk blood donors; 2) anti-p24 may be a more sensitive and specific indicator of HTLV-1 infection than antibodies to p19, p28, or p53/55; and 3) presently, both WB and RIPA are needed to verify HTLV-1 EIA reactivity.
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PMID:Detection of antibodies to human T-lymphotropic virus type 1 (HTLV-1). 283 83

A mouse hybridoma cell line, H15, produced monoclonal antibody reacting with all the adult T-cell leukemia (ATL) virus (ATLV)-bearing cell lines but none of the ATLV-negative cell lines tested. Binding of H15 antibody to ATLV-bearing cell surfaces was specifically blocked by anti-ATLV positive human sera. Radioimmunoprecipitation analyses revealed that the antigen detected by H15 antibody was p24, a core protein of ATLV. Pulse-chase experiments using H15 antibody led to the identification of a protein, p53, which could be a precursor of p24.
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PMID:A monoclonal antibody that defines p24, a core protein of adult T-cell leukemia virus, and its precursor. 608 49

The p53 protein, of the core protein group, was initially considered an oncogene but it was later noted to be included in the group of tumour-suppressive genes, the function of which seems to be focused in the control of cell growth, regulation of DNA transcription, and inhibition of certain oncogenes. A mutant protein variety has been observed with longer than normal mean life and altered function, so that it is not effective for the inhibitory control of cell growth. Mutations of that protein's gene, located in the short arm of chromosome 17, have been discovered in a large variety of tumours in humans, and in the urogenital region they have been consistently seen in both vesical and prostate tumours. The objective of the study was to confirm the need of this gene mutation, so that the vesical transitional cell tumour develops an infiltrant nature. The presence of mutations in this gene's exons 5 and 8 in infiltrant transitional cell tumours (28.5% cases) was demonstrated using as controls either surface transitional cell tumours, non-transitional tumours and healthy vesical tissue obtained together with the tumour specimen in each surgical procedure. The methods used were PCR (polymerase chain reaction) and the identification of the mutated specimen through TGGE (temperature gradient electrophoresis). The absence of mutations in the control strips together with the observation of mutations in the specimens from infiltrant tumours confirms the above hypothesis.
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PMID:[P53 protein gene. Review of the literature and assessment of the prognostic impact of its mutations in bladder tumors]. 867 24

Our previous results have suggested that the putative core protein of hepatitis C virus (HCV) transcriptionally regulates cellular and viral genes, inhibits cisplatin and c-myc-mediated apoptotic cell death under certain conditions, and transforms primary rat embryo fibroblast cells with a cooperative oncogene. Because HCV appears to cause hepatocellular carcinoma, we evaluated the regulatory role of the HCV core protein on p53, a well known tumor suppressor gene, by an in vitro transfection assay. HCV core protein repressed transcriptional activity of the p53 promoter when tested separately in COS7 and HeLa cells. Deletion mutational analysis of the HCV core gene indicated that the regulatory domain involved in the repression of p53 transcriptional activity is located around amino acid residues 80-122 encompassing a putative DNA binding motif and two major phosphorylation sites. Results from this study suggest that the putative core protein may have an important biological role in the promotion of cell growth by repressing p53 transcription, and this appears to be consistent with certain earlier observations about HCV core moving into the nucleus.
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PMID:Transcriptional repression of p53 promoter by hepatitis C virus core protein. 911 Sep 85

Hepatitis C virus (HCV) often causes a prolonged and persistent infection, and an association between hepatocellular carcinoma (HCC) and HCV infection has been noted. Recent experimental evidence using a cloned genomic region suggests that the putative core protein of HCV has numerous biological properties and is implicated as a viral factor for HCV mediated pathogenesis. WAF1/Cip1/Sid1 (p21) is the prototype of a family of proteins that inhibit cyclin-dependent kinases (CDK) and regulate cell cycle progression in eukaryotic cells. In this study, we have observed that the HCV core protein represses the transcriptional activity of the p21 promoter when tested separately by an in-vitro transient expression assay using murine fibroblasts (NIH3T3), human hepatocellular carcinoma (HepG2), and human cervical carcinoma (HeLa) cells. A deletion analysis of the p21 promoter suggested that the HCV core responsive region is located downstream of the p53 binding site. A gel mobility shift analysis showed that the HCV core protein does not bind directly to p21 regulatory sequences. Thus, the HCV core protein appears to act as an effector in the promotion of cell growth by repressing p21 transcription through unknown cellular factor(s).
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PMID:Hepatitis C virus core protein represses p21WAF1/Cip1/Sid1 promoter activity. 952 87

Hepatitis C virus (HCV) core and envelope proteins are suggested to be responsible for the pathogenesis of hepatic and extrahepatic manifestations in chronic hepatitis C. Moreover, the core protein is implicated in the regulation of the transcription of cellular genes including c-myc, RB and p53. Determining the subcellular localization of the core and envelope proteins is therefore necessary to elucidate their behaviors, particularly in vivo ones, regarding the interaction with transcriptional regulatory proteins or gene elements. We defined the subcellular localization of HCV envelope and core proteins which were expressed in substantial levels in the liver of transgenic mice. Subcellular fractionation by ultra-centrifugation revealed that the envelope proteins were present principally in the microsomes of the liver, while a small amount of the protein was detected also in the nuclei. Immunohistochemistry confirmed the localization of envelope proteins in the nuclei. In contrast, the core protein was detected principally in the cytoplasmic fraction, where it was closely associated with lipids. A low level of the core protein was detected also in the nuclei and microsomal fraction. These results suggest possible interaction of the HCV structural proteins with some factors in hepatocytes thereby perturbing intracellular circumstances.
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PMID:Subcellular localization of hepatitis C virus structural proteins in the liver of transgenic mice. 955 57

A human chondrosarcoma cell line has been established from an aggressive chondrosarcoma. The cells grow in a monolayer culture (doubling time: 2 days) and form aggregates. The aggregates consist of a rim of cells surrounding a hollow core. The cell line exhibits a unique pattern of mRNA expression with several molecules characteristic of the chondrocyte phenotype. Consistent with the chondrocyte phenotype, mRNAs encoding types IX and XI collagens were present along with an abundant expression of mRNAs encoding the core protein of the cartilage proteoglycans biglycan and aggrecan. No expression of mRNAs encoding types I or II fibrillar collagens or the proteoglycan decorin was observed. Sodium dodecyl sulfate-polyacrylamide gel electrophoretic analysis of [35S]sulfate-radiolabeled material confirmed the translation of proteoglycans containing glycosaminoglycan chains. The expression of molecules that contribute to cartilage development and tumorigenesis was examined. The cell line produces abundant mRNA that encodes transforming growth factor-beta1, a member of a family of cartilage and bone inductive proteins. The expression of mRNA encoding two proteins associated specifically with chondrogenesis was detected: Cart-1, a homeobox protein involved in cartilage differentiation, and CD-RAP, a secreted molecule restricted under normal conditions to differentiating chondrocytes and cartilage. Overexpression of p53, a tumor-suppressor gene, was detected. DNA analysis revealed a loss of heterozygosity at the chromosomal locus encoding p53, with the deletion of one p53 allele and the mutation of the remaining allele in both the parent tumor and the cell line. The malignant chondrosarcoma phenotype may be related to the unique gene expression pattern that is characteristic in many ways of differentiating chondroblasts, as well as to the inactivation of the p53 function that could contribute to the proliferative capacity of the cell line. This cell line may serve as a biological model for further investigation of the etiology of human chondrosarcomas and for the synthesis and regulation of cartilage-specific genes.
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PMID:Expression of cartilage extracellular matrix and potential regulatory genes in a new human chondrosarcoma cell line. 982 Feb 74

Accumulating evidence has demonstrated that aberration of the p53 tumour-suppressor gene is one of the pivotal genetic events in hepatocellular carcinogenesis. Recent reports suggest that the product of hepatitis B virus (HBV) interacts with p53 and that the hepatitis C virus (HCV) core protein reduces p53 expression. A novel p73 gene, which is related to p53, has recently been identified and mapped to chromosome 1p36.3, which is a locus of multiple tumour-suppressor genes for many cancers, including hepatocellular carcinoma (HCC) and neuroblastoma. Here, we investigated mRNA expression, allelotype and mutation of p73 in 48 HCCs obtained from untreated patients. Reverse transcriptase polymerase chain reaction (RT-PCR) revealed that p73 mRNA was expressed ubiquitously at low levels in all the tumour tissues, as well as in the adjacent normal liver tissues. The frequency of p73 loss of heterozygosity was observed in 20% of HCCs, but PCR-single strand conformation polymorphism (SSCP) analysis showed no mutations in the 48 tumours except for three types of polymorphisms. These results suggest that p73 may play a role in hepatocellular carcinogenesis in a different manner from a Knudson two-hit model. The regulatory mechanism of interaction between p73 and hepatitis viruses remains to be determined.
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PMID:Absence of mutation of the p73 gene localized at chromosome 1p36.3 in hepatocellular carcinoma. 1040 9

In addition to being a structural protein that packages the viral genomic RNA, hepatitis C virus (HCV) core protein possesses regulatory functions. In this report, we demonstrate that the HCV core protein could enhance the gene transactivation activity of the tumor suppressor p53, regardless of whether p53 was derived from an exogenous or an endogenous gene. The activation of p53 by the HCV core protein was supported by the observation that the HCV core protein could enhance the expression of p21(waf1/Cip1), a downstream effector gene of p53, in a p53-dependent manner. Further studies indicated that the HCV core protein could also suppress hepatocellular growth via p53. The HCV core protein and p53 could bind to each other in vitro, which was evidenced by the coimmunoprecipitation, the GST pull-down, and the Far-Western blot assays. The deletion-mapping analysis indicated that the carboxy-terminal sequence of p53 located between amino acids 366 and 380 was required for the core protein binding. These results raised the possibility that the HCV core protein might activate p53 through direct physical interaction. The persistent perturbation of p53 activity by the HCV core protein during chronic infection may have important consequences in HCV pathogenesis.
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PMID:Activation of p53 tumor suppressor by hepatitis C virus core protein. 1054 38

To clarify changes in mucus components during colorectal tumorigenesis, we developed novel monoclonal antibodies (Abs) against carbohydrate chains of human colorectal mucin (HCM) obtained from normal sigmoid and rectal mucosae. A hundred and ninety-nine cases of colorectal carcinoma and 67 cases of tubular adenoma, along with 250 normal colonic tissue samples, were investigated immunohistochemically. The results were compared with clinical stage, survival and MUC2 (core protein of the intestinal type mucin) expression, as well as with the status of the p53 and DCC (deleted in colorectal carcinomas) genes. In the normal colonic epithelium, HCM14 Ab reacted with the cytoplasmic regions of the goblet cells and enterocytes, while HCM21 Ab bound to mucous droplets in the former, suggesting a more mature carbohydrate structure. Both HCM14 and 21 scores were significantly decreased in adenomas and carcinomas. This is in line with an altered PAS-Alcian blue staining, indicating accumulation of mucins with incomplete or abnormal glycosylation in tumors. Levels of HCM14 and 21 binding tended to show a positive correlation with expression of MUC2 and DCC, and a negative association with p53 protein accumulation in carcinomas, although there was no apparent link to Duke's stage or the prognostic outcome. These findings suggest a possible involvement of alterations in mucin carbohydrate in colorectal tumor development. The observed changes may be associated with loss of MUC2 and DCC expression, as well as with p53 protein accumulation.
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PMID:Colonic mucin-carbohydrate components in colorectal tumors and their possible relationship to MUC2, p53 and DCC immunoreactivities. 1072 20


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