UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Genetic alterations of various cancers have been clarified by recent development of molecular biology. Multiple genetic alterations occur through the development of cancer. Both activation of proto-oncogenes and inactivation of tumor suppressor genes are important for the development of cancer. Alterations of oncogenes such as K-ras, c-erbB-2/HER-2/neu and c-myc, and those of tumor suppressor genes such as p53, RB and DCC have been reported in ovarian cancer. Allelic losses of the specific chromosomes, which suggest the existence of tumor suppressor genes on those chromosomes, also have been reported in ovarian cancer. Further studies on genetic alterations of ovarian cancer will clarify the mechanisms for the development of ovarian cancer and also will develop new methods for prevention, diagnosis and treatment in clinical.
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PMID:[Genetic alterations in the genesis and development of ovarian cancer]. 135 31

The human T-cell lymphotropic virus type I (HTLV-I) is capable of inducing adult T-cell leukemia/lymphoma (ATLL). However, the long latency period between infection and development of ATLL, as well as the small fraction of the infected population that actually develops this disease, suggest that additional factors are involved in its pathogenesis. Therefore, we performed a molecular analysis of 10 cases of ATLL presenting in a nonendemic area that were shown to have HTLV-I sequences by polymerase chain reaction as well as clonal T-cell receptor beta gene rearrangements. We analyzed these cases for alterations in some of the oncogenes and tumor suppressor genes frequently involved in hematopoietic neoplasia. Specifically, we used a single-strand conformation polymorphism assay to determine the presence of mutations in the p53 tumor suppressor gene, as well as the K-RAS, N-RAS, H-RAS, and c-myc oncogenes. In addition, we studied the c-myc gene for rearrangements by Southern blotting and assessed expression of the retinoblastoma (Rb) and p53 genes by immunostaining. Analysis of the c-myc gene and the RAS family of oncogenes did not show any alterations. Also, the Rb gene was expressed in all cases analyzed. However, we found mutations of the p53 gene in 3 of the 10 cases and these results were confirmed by sequence analysis. In two of these cases, we showed by restriction fragment length polymorphism analysis of chromosome 17p sequences that the p53 mutations were accompanied by a loss of heterozygocity. Also, these mutations correlated with an altered pattern of p53 expression. Thus, mutations in the p53 locus may be a cofactor for the development of ATLL in some cases, whereas the c-myc, Rb, and RAS genes do not appear to be involved in these neoplasms.
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PMID:Structural and functional analysis of oncogenes and tumor suppressor genes in adult T-cell leukemia/lymphoma shows frequent p53 mutations. 136 72

Cytogeneticists first proposed that the karyotypic abnormalities identified on chromosomes 1, 3, 6, 11, 13, 16, 17, and 18 supported a genetic basis for breast cancer. Such abnormal banding patterns, however, may represent either loss-of-function or gain-of-function molecular events. RFLP analyses have since confirmed that 20-60% of primary and spontaneous human breast tumors exhibit allelic losses on these same chromosomes, although the exact genes involved at these chromosomal sites remain largely unknown. Knowledge gained about the Rb-1 and p53 tumor suppressor genes at 13q14 and 17p13 in breast and other human tumors supports the paradigm that for any chromosomal locus, allelic loss associated with a mutation in the remaining tumor allele signifies an involved tumor suppressor gene. Given this paradigm, there are nearly a dozen putative breast tumor suppressor genes under active investigation, with most investigators now focusing on various chromosome 17 loci. Among the known proto-oncogenes found activated in breast cancer, amplification of c-erbB-2 at 17q21 is the most widely studied and clinically significant gain-of-function event uncovered to date, occurring in about 20% of all primary breast tumors. The involvement of this overexpressed membrane receptor has engendered interest in related tyrosine kinase receptors, such as EGFR, IR, and IGF-I-R, as well as their respective ligands, which may be overexpressed in a greater fraction of tumors, contributing to the autocrine and paracrine regulation of breast cancer growth and metastasis. New attention is being given to the potentially oncogenic function of structurally altered nuclear transactivating steroid hormone receptors, such as ER, whose overexpression has long been used to determine endocrine therapy and prognosis for individual breast cancer patients. While c-myc was one of the first known proto-oncogenes to be found amplified and overexpressed in human breast cancers, the actual incidence and clinical significance of its activation remain disputed and in need of further study. Lastly, we can expect greater clarification about the importance of various 11q13 genes found coamplified in nearly 20% of primary breast cancers, and pursuit into the intriguing possibility that a cyclin-encoding gene represents the overexpressed locus of real interest in this amplicon. Virtually all of these important genetic abnormalities identified thus far are associated with but not restricted to human breast cancers. The absence of identifiable molecular defects relating to the tissue specificity of this malignancy must be considered a substantial gap in our basic understanding of breast carcinogenesis.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Activated oncogenes and putative tumor suppressor genes involved in human breast cancers. 136 56

In addition to being regulated by a complex array of cis- and trans-acting factors, c-myc protooncogene expression may be modulated by antisense RNA transcripts. Our previous studies have determined that depletion of intracellular polyamines by alpha-difluoromethylornithine results in a marked decrease in the transcription of the human c-myc gene. Because of reports that antisense transcription occurs in the 5' and 3' regions of this gene, we used a genomic clone of the human c-myc gene to ascertain whether polyamine depletion might induce an antisense RNA transcript. These studies demonstrate that polyamine depletion of the human colon cancer cell line COLO 320 results in induction of an endogenous RNA transcript with high homology to the antisense strand of the second intervening sequence (PvuII-RsaI) of the c-myc gene. Furthermore, during such depletion, steady state levels of this transcript vary inversely to the sense direction c-myc RNA. RNase protection studies suggest that the antisense transcript may arise from a different gene locus than the c-myc gene. To further identify the origins of this RNA, a cDNA library was generated from size-selected RNA and screened with c-myc sequences. A 438-base pair cDNA was isolated with approximately 85% homology, to a 285-base region in the second intron of the c-myc gene. Computer homology analysis further reveals that a 120-base region within this cDNA also has approximately 85% homology to the antisense strands of a number of genes, including the growth-related genes, N-myc, p53, and thymidine kinase. These studies provide the initial characterization of an endogenous antisense RNA transcript which could influence cell growth by modulating the expression of c-myc and other genes.
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PMID:Characterization of an endogenous RNA transcript with homology to the antisense strand of the human c-myc gene. 137 45

Teleocidin, a tumor promoter, inhibited the proliferation, enhanced cytokeratin assembly and increased the type III procollagen production of PLC/PRF/5 hepatoma cells. Teleocidin transiently increased the levels of c-fos and p53 mRNAs measured by reverse transcription and polymerase chain reaction. This was followed by a reduction of c-myc mRNA and an increase of cytokeratin mRNA. The level of p120 mRNA was not remarkably altered. Sequential alterations of the expression of c-fos, p53, c-myc and cytokeratin genes induced by teleocidin may be responsible for the morphological and functional changes of hepatoma cells induced by this tumor promoter.
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PMID:Co-ordinate expression of c-fos, p53 and cytokeratin genes during the alteration of growth of human hepatoma cells. mRNA levels measured by reverse transcription and polymerase chain reaction. 138 34

While the activation of the proto-oncogenes has been implicated in the development and progression of cancer of many tissues, the role of oncogenes in the development of oesophageal adenocarcinoma has not been defined. Fifteen patients who had undergone resection for oesophageal adenocarcinoma and 15 who had undergone oesophagectomy or biopsy for Barrett's oesophagus were studied. The latter patients also had adjacent normal gastric mucosa biopsied for comparison with the metaplastic oesophageal mucosa. The mucosal samples were snap frozen and subsequently stained with monoclonal antibodies to the following oncogene associated proteins; c-erbB2 (neu and CE-1) (external domain), c-erbB2 (NCL-CB11) (internal domain), c-src, c-ras, c-myc, c-fos, c-jun, and the onco-suppressor gene--p53. All tumours were well or moderately differentiated adenocarcinomas arising from the lower third of the oesophagus. Eleven specimens showed strong membraneous staining with both c-erbB2 (neu) and c-erbB2 (CBL-CB11). Seven specimens showed strong nuclear staining with p53 onco-suppressor gene. Three specimens were positive for c-ras and c-src, and two were positive for c-jun. In Barrett's epithelium, nine specimens were positive for c-erbB2 (neu and CB11), three were positive for c-src, two were positive for c-ras and c-jun, and one was positive for c-fos. Two of the gastric mucosal biopsy specimens expressed c-erbB2 weakly but no other oncogenes were found. The frequency of positive staining for c-erbB2 is very high, compared with the expression of these genes in other tumours. It is also concluded that errors in the onco-suppressor gene p53, and especially in the external and internal domains of c-erbB2, which is also often expressed in Barrett's mucosa, may be implicated in the development of adenocarcinoma of the oesophagus.
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PMID:Oncogenes and onco-suppressor gene in adenocarcinoma of the oesophagus. 139 27

Here we analyzed the effect of the suppressor proto-oncogene p53 on transcription from the P2 promoter of the murine c-myc gene. c-myc promoter constructs were coupled to the chloramphenicol acetyl-transferase (CAT) gene and were transiently transfected into a human glial cell along with plasmids overexpressing wild-type or mutant p53. It was found that significant repression of c-myc transcription took place following cotransfection with wild-type but not mutant p53. However wild-type p53 did not suppress transcription from the SV40 early promoter or from the MHC promoter. Promoter-CAT constructs containing only the ME1a2 or E2F elements, from the P2 promoter, were repressed by p53, indicating that p53 may exert its effect at these two sites within the P2 promoter. Finally, when the SV40 T antigen and wild-type p53 were expressed together in glial cells the repressive effect of p53 was abolished.
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PMID:Wild-type murine p53 represses transcription from the murine c-myc promoter in a human glial cell line. 140 Jun 26

An underinvestigated aspect of the mitogenic and cell regulatory actions of vanadium is the regulation of gene expression. Among the fifteen cellular genes studied in cultured mouse C127 cells, vanadium (as 10 microM sodium vanadate) increased levels of mRNA of the actin and c-Ha-ras to four times control values. These increases represented de novo synthesis of mRNA, since they were inhibited by actinomycin D. Vanadate did not increase mRNA corresponding to c-src, c-mos, c-myc, p53, HSP70, pODC or RB genes, and expression of c-erb A, c-erb B, c-sis and c-fes genes was undetectable whether vanadium was present or not. Expression of a third gene affected by vanadium, c-jun, was augmented by addition of a reductant or oxidant together with the vanadate. Addition of NADH (marginally effective on its own) or H2O2 (effective alone) dramatically enhanced the effect of vanadate on c-jun gene expression. Catalase inhibited the effect of NADH partly. The vanadate-stimulated expression of actin and c-Ha-ras mRNA were unaffected by oxidants, reductants, metal chelators, or anti-oxidant enzymes. Evidently vanadate acts by two separate mechanisms on these two categories of genes. The alternate hypothesis that the actions of vanadate on actin and c-Ha-ras were mediated by a protein kinase cascade was inconsistent with the following observations. Neither insulin nor epidermal growth factor increased mRNA levels of c-Ha-ras or actin gene. Neither genistein (a tyrosine kinase inhibitor) nor pretreatment with 12-O-tetradecanoylphorbol-13-acetate blocked the actions of vanadate on these genes. Clearly the biological actions of vanadium depend in part on altered expression of genes. Since two of the genes are proto-oncogenes, this mechanism is potentially relevant to the mitogenic responses of cells to vanadium.
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PMID:Vanadate-induced gene expression in mouse C127 cells: roles of oxygen derived active species. 143 69

Inactivating mutations of the retinoblastoma gene (RB) are found in a wide variety of tumour cells. Replacement of wild-type RB can suppress the tumorigenicity of some of these cells, suggesting that the RB protein (Rb) may negatively regulate cell growth. As activation of c-myc expression promotes cell proliferation and blocks differentiation, it may positively regulate cell growth. The c-myc protein is localized in the nucleus and can physically associate with RB protein in vitro, hence c-myc may functionally antagonize RB function. Microinjection of Rb in G1 phase reversibly arrests cell-cycle progression. Here we co-inject RB protein with c-myc, EJ-ras, c-fos or c-jun protein. Co-injection of c-myc, but not EJ-ras, c-fos or c-jun, inhibits the ability of Rb to arrest the cell cycle. The c-myc does not inhibit the activity of another tumour supressor, p53 (ref. 12). Thus, c-myc and RB specifically antagonize one another in the cell.
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PMID:Abrogation by c-myc of G1 phase arrest induced by RB protein but not by p53. 143 95

A high frequency of lymphoma in human immunodeficiency virus-infected individuals has been reported since the outbreak of the acquired immunodeficiency syndrome (AIDS) epidemic in 1982. In the vast majority of cases, these lymphomas are highly aggressive B-cell, non-Hodgkin's lymphoma of intermediate or high grade of malignancy. AIDS-associated non-Hodgkin's lymphoma are histologically classified as small noncleaved cell lymphoma, large cell immunoblastic plasmacytoid lymphoma, or large noncleaved cell lymphoma. Host factors predisposing to lymphoma development in AIDS patients include decreased immunosurveillance as well as human immunodeficiency virus-induced chronic perturbation of the immune system leading to cytokine overproduction and increased B-cell stimulation. These alterations are associated with the development of multiple oligoclonal B-cell expansions, which are characterized by persistent generalized lymphadenopathy. The presence of Epstein-Barr virus within a persistent generalized lymphadenopathy clone further increases the risk of its neoplastic transformation. The appearance of non-Hodgkin's lymphoma is characterized by the presence of a monoclonal B-cell population displaying several genetic lesions, including monoclonal Epstein-Barr virus infection, c-myc rearrangements, Ras mutations, and p53 inactivation. The number and type of lesions varies among the different types of AIDS-non-Hodgkin's lymphoma, defining multiple alternative molecular pathways in AIDS-associated lymphomagenesis.
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PMID:Biologic aspects of human immunodeficiency virus-related lymphoma. 145 5

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