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)

The expression of p53 in human cells infected with wild-type (wt) and mutant adenoviruses has been examined. With wt Ad5 and Ad12, and Ad12 viruses carrying lesions in the E1A or the 19K E1B genes, there was a pronounced decrease in level of p53 during the course of infection. However, when cells were infected with mutant viruses which did not express the larger E1B proteins (Ad12 dl620 and in602 and Ad5 dl338 and pm381) the concentration of p53 increased markedly to levels comparable to those seen in adenovirus transformed cells. This increase in level of p53 correlated closely with the advent of E1A expression. Infection with Ad5 dl355 (which carries a lesion in the E4 gene) also resulted in an increase in p53 expression. We have concluded that these results can be explained on the basis of the known ability of E1A to stabilize p53 and of the E1B 58K:E4 34K protein complex to regulate mRNA metabolism during viral infection, although large increases in expression of p53 or any other cellular proteins following infection with these viruses have not previously been reported. It is suggested that the high concentrations of p53 could explain the inability of 54K and 58K negative mutants to transform cells in culture. In cells infected with dl355 both the Ad5 E1B 58K protein and p53 were located in the nucleus. It was shown by coimmunoprecipitation experiments that these proteins formed a complex which was stable in the presence of high concentrations of NaCl. The interaction of the Ad12 E1B 54K protein and p53 has also been demonstrated in Ad12 E1-transformed cells by immunoprecipitation experiments. These data, taken in conjunction with previous results, have suggested that increased expression of p53 is unrelated to complex formation with the larger Ad E1B proteins.
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PMID:Enhanced expression of p53 in human cells infected with mutant adenoviruses. 805 47

Leukemia cell infiltration and the induction of lethal hematopoietic disease in immune-deficient SCID mice transplanted with human T cell acute lymphoblastic T leukemia (T-ALL) cells occurred only when the cells possessed mutant p53 genes and lacked a wild-type allele or when T-ALL cells lacking p53 protein were infected with specific mutant p53 genes. A series of six mutant p53 genes were cloned from relapse T-ALL-derived cell lines and were constructed into defective retroviral expression vectors. Viruses encoding mutant p53 proteins were used to infect relapse T-ALL cells in a study designed to compare their pathogenic potency. The mutant p53 genes possessed a distinct hierarchy in vivo and in vitro: mutants inducing the greatest increase in proliferation of different T-ALL lines in vitro and colony formation in methylcellulose cultures also induced tissue invasiveness of infected T-ALL cells in vivo. Mutant p53 gene transfer to a cell line lacking p53 protein showed that the more potent p53 mutants possessed a distinctive dominant oncogenic activity in vitro and in vivo. The dominant oncogenic activity of these mutant p53 proteins was not dependent on the presence of and on complex formation with wild-type p53 protein. These "hot" p53 mutations thus represent bona fide gain-of-function mutations. Infection of p53-negative T-ALL cells with viruses encoding gain-of-function mutant p53 genes resulted in the acquisition of metastatic potential and tissue invasiveness. Taken together, our results suggest that specific mutant p53 genes play a role in the generation of lymphohematopoietic metastatic potential and tissue invasiveness as assayed in SCID mice, whereas the expression of wild-type p53 is capable of keeping this metastatic potential in check.
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PMID:Gain-of-function mutations of the p53 gene induce lymphohematopoietic metastatic potential and tissue invasiveness. 808 50

Expression of the adenovirus E1A oncogene induces apoptosis which impedes both the transformation of primary rodent cells and productive adenovirus infection of human cells. Coexpression of E1A with the E1B 19,000-molecular-weight protein (19K protein) or the Bcl-2 protein, both of which have antiapoptotic activity, is necessary for efficient transformation. Induction of apoptosis by E1A in rodent cells is mediated by the p53 tumor suppressor gene, and both the E1B 19K protein and the Bcl-2 protein can overcome this p53-dependent apoptosis. The functional similarity between Bcl-2 and the E1B 19K protein suggested that they may act by similar mechanisms and that Bcl-2 may complement the requirement for E1B 19K expression during productive infection. Infection of human HeLa cells with E1B 19K loss-of-function mutant adenovirus produces apoptosis characterized by enhanced cytopathic effects (cyt phenotype) and degradation of host cell chromosomal DNA and viral DNA (deg phenotype). Failure to inhibit apoptosis results in premature host cell death, which impairs virus yield. HeLa cells express extremely low levels of p53 because of expression of human papillomavirus E6 protein. Levels of p53 were substantially increased by E1A expression during adenovirus infection. Therefore, E1A may induce apoptosis by overriding the E6-induced degradation of p53 and promoting p53 accumulation. Stable Bcl-2 overexpression in HeLa cells infected with the E1B 19K- mutant adenovirus blocked the induction of the cyt and deg phenotypes. Expression of Bcl-2 in HeLa cells also conferred resistance to apoptosis mediated by tumor necrosis factor alpha and Fas antigen, which is also an established function of the E1B 19K protein. A comparison of the amino acid sequences of Bcl-2 family members and that of the E1B 19K protein indicated that there was limited amino acid sequence homology between the central conserved domains of E1B 19K and Bcl-2. This domain of the E1B 19K protein is important in transformation and regulation of apoptosis, as determined by mutational analysis. The limited sequence homology and functional equivalency provided further evidence that the Bcl-2 and E1B 19K proteins may possess related mechanisms of action and that the E1B 19K protein may be the adenovirus equivalent of the cellular Bcl-2 protein.
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PMID:Functional complementation of the adenovirus E1B 19-kilodalton protein with Bcl-2 in the inhibition of apoptosis in infected cells. 808 92

The p53 tumor suppressor protein, which is commonly mutated in human cancers, has been shown to interact directly with virally encoded from papillomavirus, adenovirus, and simian virus 40. The disruption of p53 function may be required for efficient replication of certain viruses and may also play a role in the development of virally induced malignancies. Infection with Epstein-Barr virus (EBV) has been associated with the development of B-cell lymphomas and nasopharyngeal carcinoma. Here we show that the EBV immediate-early protein, BZLF1 (Z), which is responsible for initiating the switch from latent to lytic infection, can interact directly in vitro and in vivo with the tumor suppressor protein, p53. This interaction requires the coiled-coil dimerization domain of the Z protein and the carboxy-terminal portion of p53. Overexpression of wild-type p53 inhibits the ability of Z to disrupt viral latency. Likewise, Z inhibits p53-dependent transactivation in lymphoid cells. The direct interaction between Z and p53 may play a role in regulating the switch from latent to lytic viral infection.
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PMID:Functional and physical interaction between p53 and BZLF1: implications for Epstein-Barr virus latency. 811 24

The wide clinicopathologic heterogeneity of non-Hodgkin's lymphoma is reflected by the various molecular pathways underlying non-Hodgkin's lymphoma pathogenesis, including activation of dominantly acting oncogenes, deletion and inactivation of tumor-suppressor genes, viral infection, deregulation of cytokine networks, and chronic antigenic stimulation. Molecular lesions involving protooncogenes include activation of bcl-2 and bcl-1 in specific subsets of low-grade non-Hodgkin's lymphomas and c-myc in a proportion of intermediate- and high-grade non-Hodgkin's lymphomas. The deregulation of these genes promotes cell growth or protects the tumor population from programmed cell death, or both. Additional genetic abnormalities representing putative sites of novel oncogenes contributing to lymphomagenesis include chromosomal breaks at 3q27 in intermediate-grade non-Hodgkin's lymphoma and at 9p13 in small lymphocytic lymphoma. The role of inactivation of tumor-suppressor loci is best exemplified by the frequent inactivation of p53 in Burkitt's lymphoma and by the recurrent deletion of 6q25-q27 and 6q21-q23 in intermediate- and high-grade non-Hodgkin's lymphoma, respectively. Infection by Epstein-Barr virus occurs in a variable fraction of high-grade non-Hodgkin's lymphomas, whereas it is usually absent in other types of non-Hodgkin's lymphoma. Other mechanisms supporting non-Hodgkin's lymphoma growth and development include autocrine or paracrine cytokine loops, or both, and clonal expansion through antigen receptor stimulation. The heterogeneity of non-Hodgkin's lymphoma pathogenesis provides a framework for the development of novel classification methods of potential clinical relevance.
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PMID:Biologic and molecular characterization of non-Hodgkin's lymphoma. 821 89

Infection with certain types of human papillomaviruses (HPV) is highly associated with carcinomas of the human uterine cervix. However, HPV infection alone does not appear to be sufficient for the process of malignant transformation, suggesting the requirement of additional cellular events. After DNA damage, normal mammalian cells exhibit G1 cell-cycle arrest and inhibition of replicative DNA synthesis. This mechanism, which requires wild-type p53, presumably allows cells to undertake DNA repair and avoid the fixation of mutations. We directly tested whether the normal response of cervical epithelial cells to DNA damage may be undermined by interactions between the E6 protein expressed by oncogenic HPV types and wild-type p53. We treated primary keratinocytes with the DNA-damaging agent actinomycin D and demonstrated inhibition of replicative DNA synthesis and a significant increase in p53 protein levels. In contrast, inhibition of DNA synthesis and increases in p53 protein did not occur after actinomycin D treatment of keratinocytes immortalized with HPV16 E6/E7 or in cervical carcinoma cell lines containing HPV16, HPV18, or mutant p53 alone. To test the effects of E6 alone on the cellular response to DNA damage, HPV16 E6 was expressed in the carcinoma cell line RKO, resulting in undetectable baseline levels of p53 protein and loss of the G1 arrest that normally occurs in these cells after DNA damage. These findings demonstrate that oncogenic E6 can disrupt an important cellular response to DNA damage mediated by p53 and may contribute to the subsequent accumulation of genetic changes associated with cervical tumorigenesis.
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PMID:Human papillomavirus 16 E6 expression disrupts the p53-mediated cellular response to DNA damage. 838 5

Infection with Herpesvirus saimiri, a T lymphotropic virus of non-human primates, immortalizes human T cells in vitro. The cells show a mature activated phenotype and retain their antigen specificity. We have previously shown that in H. saimiri transformed cells a viral gene product termed tyrosine kinase interacting protein (Tip) associates with the T cell-specific tyrosine kinase p56lck and becomes phosphorylated by the enzyme on tyrosine residues. Here we show that p56lck is activated by recombinant and native Tip in cell-free systems. A dramatic increase of Lck activity was also observed in T cell lines transfected with Tip. p60fyn and p53/56lyn, the other Src-related kinases expressed in H. saimiri transformed T cells, did not phosphorylate Tip, and they were not activated by the protein. The selective activation of p56lck by Tip could contribute to the transformed phenotype of H. saimiri infected cells, and it might explain the T cell selectivity of the transformation event.
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PMID:Selective activation of T cell kinase p56lck by Herpesvirus saimiri protein tip. 855 95

To examine the potential use of adenovirus vectors in cancer gene therapy as a mechanism for purging bone marrow cells of possible breast cancer contaminants, we compared the infection efficiency of adenovirus and the transfection efficiency of plasmid DNA in the presence of adenovirus in human breast cancer and bone marrow cells. Following infection of breast cancer cells with an adenovirus expressing beta-galactosidase gene, high levels of beta-galactoside activity were observed. No beta-galactosidase activity was observed in low-density human bone marrow cells. A replication-deficient adenovirus mutant dl312 enhanced the transfection efficiency of a plasmid DNA-expressing beta-galactosidase gene into breast cancer cells, and addition of a liposome, lipofectamine, further enhanced the transfection efficiency. In contrast, human bone marrow cells treated under the same conditions expressed very low levels of transfected beta-galactosidase DNA. Transfection of cells with plasmid DNA expressing a truncated but fully active Pseudomonas exotoxin gene in the presence of dl312 and lipofectamine resulted in marked breast cancer cell killing, whereas colony-forming unit granulocyte-macrophage (CFU-GM) were relatively resistant to these treatments. A recombinant adenovirus expressing human wild-type p53 protein (AdWTp53) was also highly cytotoxic to breast tumor cells. Infection of breast cancer cells with AdWTp53 (100 plaque-forming units/cell) resulted in 100% loss of the clonogenicity of breast tumor cells. However, colony formation from CFU-GM was relatively resistant to the cytotoxic effects of AdWTp53 alone or in the presence of pULI100 plasmid and lipofectamine. On the basis of these results, it is proposed that human adenoviruses are potentially useful for cancer gene therapy and bone marrow purging.
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PMID:Adenovirus-mediated gene transfer to human breast tumor cells: an approach for cancer gene therapy and bone marrow purging. 864 Aug 24

Infection of quiescent cells with the DNA tumor virus simian virus 40 induces expression of the cellular thymidine kinase (TK) gene a minimum of 10- to 20-fold, and this induction depends upon the viral protein large T antigen (T-Ag). To define both human TK promoter elements and T-Ag functional domains required for transcriptional induction, we have established a system in which stable Rat-1 transfectants harboring TK promoter-luciferase hybrid genes are infected with recombinant adenoviruses expressing either wild-type or mutant forms of T-Ag and luciferase expression is measured as an indicator of promoter activity. The results show that (i) a 135-bp TK promoter fragment is activated 10- to 15-fold by viral infection; (ii) this activation is the result of both T-Ag-dependent and -independent mechanisms; (iii) the T-Ag pRb family-binding domain, but not the p53-binding, helicase, or ATPase domain, is required for activation; and (iv) activation is severely diminished with a TK promoter fragment in which E2F-like-binding sites have been removed. These data demonstrate a requirement for both an E2F-related factor and a pRb family member in activation of the TK promoter by T-Ag. This contrasts with the promiscuous activation of many cellular and viral genes by T-Ag, which is independent of its ability to bind pRb.
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PMID:Activation of the human thymidine kinase (TK) promoter by simian virus 40 large T antigen requires both the T antigen pRb family-binding domain and TK promoter sequences resembling E2F-binding sites. 870 58

Infections with specific high-risk of human papillomavirus constitute a major risk factor in the development of precancerous and cancerous lesions of the uterine cervix. Laboratory studies suggest that the human papillomavirus has a mechanistic role in development of these lesions. The two viral proteins consistently expressed in cervical carcinomas functionally abrogate critical cell cycle regulatory pathways, including those governed by the p53 tumor suppressor protein and the product of the retinoblastoma susceptibility gene, pRB. Subversion of these pathways by viral proteins causes genomic instability, resulting in the accumulation of chromosomal abnormalities followed by clonal expansion of malignant cells. Since continued expression of the papillomavirus proteins is critical for maintenance of the transformed state, they are attractive targets for prevention and therapy of precursor as well as cancerous lesions of the cervix.
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PMID:The molecular biology of cervical cancer. 874 78


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