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)

Multiple genome alterations can be seen within a tumor and continue to accumulate throughout development of the growth. Chromosome deletions occurring in tumors are generating much interest. To date, the best known model is retinoblastoma whose study gave rise to the concepts of anti-oncogene or tumor suppressor gene. Studies of genetic anomalies in colorectal tumors have led to an elegant model of colonic carcinogenesis in which multiple steps, each with its corresponding genetic anomaly, successively accumulate, with deletion of the p53 gene occurring as a late event. Successive anomalies of the p53 gene (mutations, deletions) occur during passage from a low-grade astrocytoma to a higher-grade astrocytoma. Studies of familial forms of breast cancer and of breast and ovarian cancer have also provided insight into the biology of these tumors, with the identification of a predisposing chromosomal area whose location is 17 q-12-21. These approaches open up possibilities for screening techniques and use of preventive treatments in highly selected patients. However they raise many ethical problems. There is a need for developing a charter for these family studies in the near future.
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PMID:[Genetics and cancers]. 130 91

We have examined breast tumour samples from 109 unselected breast cancer patients for genetic changes on chromosomes 13 and 17. We have looked for allelic losses, firstly, at the retinoblastoma locus, RB1, on chromosome 13q, and secondly, on both arms of chromosome 17. We have also studied the same samples for amplification of the erbB2 oncogene. We searched for mutations in four well conserved areas of the p53 gene using constant denaturant gradient electrophoresis (CDGE). Allelic loss or rearrangement was detected in a large proportion of the tumours, affecting 37-51% of cases with different probes. The areas most frequently affected were 17p13.1 and 17p13.3. Point mutations and small deletions in the p53 gene on 17p13.1 were detected in 16% of the tumours. The data on genetic changes were then analyzed for three different correlations: 1) co-operation between different lesions, 2) association with family history of breast cancer, 3) correlation with clinical factors and prognosis. There was association between losses at the retinoblastoma locus and losses on 17p and 17q. We also found an association between p53 mutations and amplification of the erbB2 oncogene. Relatives of patients having deletions at the retinoblastoma locus and/or sites on chromosome 17 in the tumours have a significantly increased relative risk of developing breast cancer. No such correlation is found for p53 mutations or erbB2 amplification. No p53 germline mutations were detected. P53 mutations do, however, appear to be a strong indication of poor prognosis in this population.
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PMID:Genetic changes in breast carcinomas in an Icelandic population. 130 32

Stable interactions between simian virus 40 large T antigen and host proteins are believed to play a major role in the ability of the viral protein to transform cells in culture and induce tumors in vivo. Two of these host proteins, the retinoblastoma susceptibility protein (pRB) and p53, are products of tumor suppressor genes, suggesting that T antigen exerts at least a portion of its transforming activity by complexing with and inactivating the function of these proteins. While analyzing T antigen-host protein complexes in mouse cells, we noted a protein of 185 kDa (p185) which specifically coimmunoprecipitates with T antigen. Coimmunoprecipitation results from the formation of stable complexes between T antigen and p185. Complex formation is independent of the interactions of T antigen with pRB, p120, and p53. Furthermore, analysis of T-antigen mutants suggests that T antigen-p185 complex formation may be important in transformation by simian virus 40.
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PMID:Simian virus 40 large T antigen stably complexes with a 185-kilodalton host protein. 131 Jul 76

The development of Wilms' tumor, a pediatric kidney cancer, has been linked to the inactivation of a tumor suppressor gene both by epidemiologic studies and by genetic analyses. Like retinoblastoma, Wilms' tumors can occur bilaterally in individuals with apparent genetic susceptibility to this disease. This led Knudson and Strong to propose in 1972 that two genetic events were rate limiting in tumor development and that predisposed individuals had already inherited one mutation in the germline. The observation of karyotype abnormalities in predisposed children and studies of the molecular genetics of Wilms' tumor specimens enabled the identification of chromosome band 11p13 as one genetic locus inactivated in Wilms' tumor. The recent isolation of the WT1 gene, which is the specific target within that locus, offers new insight into the etiology of Wilms' tumor. This gene has properties distinct from those of other known tumor suppressor genes. WT1 encodes a zinc finger transcription factor that is alternatively spliced and has high sequence homology to the early growth response genes (EGR). Unlike the retinoblastoma (RB1) and p53 genes that are expressed ubiquitously, WT1 is expressed in specific cells of the kidney and only during a short period in development. Thus, disruption of a gene that is active during a critical period in the development of a specific organ can lead to neoplastic growth in that organ. Future studies are aimed at exploring the link between the role of the WT1 gene in normal development and in tumorigenesis of the kidney.
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PMID:WT1: a novel tumor suppressor gene inactivated in Wilms' tumor. 131 85

Retinoblastoma (RB) and the familial adenomatous polyposis/colorectal cancer (FAP/CRC) complex provide well-characterised examples of multistage carcinogenesis and inheritance of a predisposition to cancer. Retinoblastoma appears to conform to the simple two-step model first proposed by Knudson. The gene responsible for RB, now called Rb1, has been located in chromosome region 13q14. The Rb1 gene has been cloned and subjected to extensive analysis. It is probable that the Rb1 gene product has a role in the regulation of transcription. The familial form of RB occurs as the result of a germline mutation of one of the copies of the Rb1 gene. Colorectal cancer, in contrast, appears to be the result of four or five steps involving both activation of oncogenes and inactivation of antioncogenes. The FAP gene has been located in chromosome region 5q21 by genetic linkage, and a candidate gene, MCC (mutated in colon cancer), has been cloned. Other mutations in previously-identified genes that have been identified as important in the genesis of CRC include the activation of p53 and of Ki-ras. A gene lying in chromosome region 18q which is deleted in colorectal cancer, and hence named DCC has been cloned. Its protein product has sequence homology to neural cell adhesion molecules and other related cell-surface glycoproteins. Delineation of the genes involved in the development of tumours such as RB and CRC provides insight into the mechanisms by which sequential mutations result in carcinogenesis.
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PMID:Multistage carcinogenesis in paediatric and adult cancers. 131 30

The E6 and the E7 proteins of the oncogenic human papillomavirus types 16 and 18 can stably associate with p53 and the retinoblastoma protein, respectively. The E6-p53 interaction results in the accelerated degradation of p53 in vitro via the ubiquitin-dependent proteolysis system. In this study we demonstrate that a fusion protein consisting of the N-terminal half of the HPV-16 E7 protein and the full length HPV-16 E6 protein promotes the in vitro degradation of the retinoblastoma protein. This indicates that the property of the HPV-16 E6 protein to stimulate the degradation of p53 can be targeted to other proteins. Unlike the HPV-16 or HPV-18 E6 protein, the E6 proteins of HPV-6 and 11 do not bind to p53 and consequently do not target p53 for degradation. Analogous E7-E6 fusion proteins using the E6 proteins of HPV-6 and HPV-11, however, also have the ability to promote the degradation of the retinoblastoma protein, indicating that the property to target associated proteins for degradation is shared by the anogenital specific HPV E6 proteins.
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PMID:Targeted degradation of the retinoblastoma protein by human papillomavirus E7-E6 fusion proteins. 132 Oct 31

The HPVs associated with anogenital cancers encode two oncoproteins, E6 and E7. Both E6 and E7 can form specific complexes with tumour suppressor gene products. The E7 protein binds to the retinoblastoma tumour suppressor gene product pRB, with a preference for the underphosphorylated, "active" form of pRB. The E7 proteins derived from the "high risk" HPVs bind to pRB with a higher affinity than the E7 proteins from the "low risk" HPVs. The "high risk" HPV E6 proteins can associate with the p53 tumour suppressor protein. This interaction promotes the degradation of p53 in vitro, which presumably accounts for the very low levels of p53 in cervical carcinoma cell lines. The functional inactivation of pRB and p53 by the HPV oncoproteins E7 and E6, respectively, are likely to be important steps in cervical carcinogenesis, since mutations in the RB and p53 genes were detected in HPV negative but not HPV positive cervical carcinoma cell lines. Cytogenetic studies strongly suggest, however, that additional chromosomal changes may be necessary for carcinogenic progression of HPV induced anogenital lesions.
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PMID:Interactions of HPV E6 and E7 oncoproteins with tumour suppressor gene products. 132 42

Genomic rearrangements occurring in C3H/10T1/2 cells transformed by X-rays were examined with a DNA fingerprint assay. Four multilocus and multiallele probes were employed (M, X, H10, and H16) that detect different families of minisatellite sequences dispersed throughout the genome. Genomic rearrangements were detectable only with probe M. This specificity may be explained by a genomic instability owing to a specific sequence or structure of DNA recognized by probe M. Genomic rearrangements were detected in 5 of 12 type III foci transformed by 600 cGy of X-rays and in all clones isolated from a previously transformed clone exposed to a second dose of 600 cGy and recloned. The latter data suggest that the stage of transformation and the occurrence of genomic rearrangement induced by X-rays may be related. An intensity shift or a complete deletion of band 2 was common to these X-ray-induced clones, as well as to clones transformed by UV-C (1 of 5) or 3-methylcholanthrene (4 of 6). This band did not hybridize to probes for the retinoblastoma gene RB or for p53. We hypothesize that the loss of band 2 may reflect a significant genetic change in the transformation of 10T1/2 cells, perhaps representing the inactivation of a tumor suppressor gene other than RB or p53. Additional rearrangements occurred in X-ray-transformed clones; these rearrangements were not observed with the other carcinogens. Aside from the changes in band 2, however, no specific pattern of genomic rearrangement was associated with X-ray transformation, and the presence or absence of rearrangements did not correlate with tumorigenicity in syngeneic nonimmunosuppressed C3H mice.
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PMID:Genomic rearrangements in mouse C3H/10T1/2 cells transformed by X-rays, UV-C, and 3-methylcholanthrene, detected by a DNA fingerprint assay. 132 16

The establishment of a new glioma cell line, DBTRG-05MG, in a modified RPMI 1640 medium is described. The cells were derived from an adult female with glioblastoma multiforme who had been treated with local brain irradiation and multidrug chemotherapy; the tumor showed substantial change in histologic appearance compared to the original biopsy 13 mo. previously. The line has been successfully cryopreserved and passaged up to 20 times. The karyotype of the cells demonstrated it as a hypotetraploid line; the DNA index of 1.9 confirmed the karyotype analyses. By immunocytochemical analysis, the cell line reacted with polyclonal antibodies to vimentin, S100, and neuron specific enolase, reflecting its primitive neuroectodermal character. Positive immunostaining for epidermal growth factor receptor correlated with the excess of chromosome 7 seen in the karyotype. The cell line reacted negatively to antibodies against platelet-derived growth factor and its receptor, neuronal cell adhesion molecule, and glial fibrillary acidic protein. By flow cytometry, the cells were major histocompatibility class I antigen positive and class I antigen negative. Growth kinetic studies demonstrated an approximate population doubling time of 34 to 41 h and a colony forming efficiency of 71.4%. Western blot analysis showed the presence of low levels of normal-sized retinoblastoma protein. When compared to the patient's lymphocyte DNA, no loss of heterozygosity of the p53 tumor suppressor gene was observed in the DBTRG-05MG cell line DNA.
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PMID:Characterization of a continuous human glioma cell line DBTRG-05MG: growth kinetics, karyotype, receptor expression, and tumor suppressor gene analyses. 133 Oct 21

Recent developments in the field of oncogenes and growth stimulatory factors have provided limited but essential models in neuro-oncology. The observation in gliomas of platelet growth factor (PDGF)-like immunoreactivity fits with the autocrine secretion model, rising the possibility for the growth factor independence of the cancer cells. The discovery of the tumor suppressor genes, for which loss of function mutations are oncogenic as in the RB gene of the retinoblastoma and p53 gene, has introduced a new concept of oncogenesis which could be useful even in the cure of the neoplasms. Several oncogenes are amplified and/or expressed in brain tumors, some associated with polymorphism leading to abnormal protein products. Therefore, corresponding functions, such as production of deficient epidermal growth factor receptor (EGFR) encoded by erb-B, are impaired. Abnormal chromosomal patterns have been recognized in brain tumors and found mainly in chromosomes 7 and 22 on which oncogenes erb-B and sis are located, respectively. Location of proto-oncogenes, which are normally expressed in the brain, indicate that they share common distribution patterns mainly involving the cerebellum, hippocampus and olfactory bulbs. These proto-oncogenes may be regulated by physiological and pathological events. The concept of oncogene involvement in brain tumors must be extended to include the other factors such as G-proteins, growth factor receptors, membrane-associated and cytoplasmic protein kinases, which are all responsible for the control of the cell growth and their response to external signals including chemotherapeutic drigs.
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PMID:Oncogenes: cause or consequence in the development of glial tumors. 133 37


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