Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P43146 (tumour suppressor)
5,935 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The technique of somatic cell hybridization and the concept of tumour suppressor genes share a common history. Somatic cell hybrids between mammalian tumour cells and their normal cellular counterparts invariably are non-tumorigenic, establishing the recessive genetic nature of tumorigenicity. The development of cytogenetics and microcell hybridization has provided methods for localization of the tumour suppressor genes to specific chromosomal regions. Continuing studies of this type will facilitate the isolation of these genes by molecular methods including differential cDNA screening and 'reverse genetics'.
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PMID:Genetic behaviour of tumorigenicity in human cancer. 198 9

The retinoblastoma susceptibility gene, RB, is the best characterised of the tumour suppressor genes, or 'anti-oncogenes'. Abnormal function of the RB protein is thought to result in loss of an inhibitory effect on cell growth, and thus contribute towards the development of certain human cancers. One group of human cancers of particular interest in relationship to retinoblastoma gene function are the gliomas, which are central nervous system tumours thought to originate from the neuroectoderm, the embryological tissue which also gives rise to retinoblastomas. We have therefore examined a group of benign and malignant gliomas for evidence of structural alterations of the RB gene. Four out of nine (44%) glioblastomas, the most malignant gliomas, showed loss of heterozygosity of a locus within this gene. In addition, one of these hemizygous tumours showed deletion of part of the RB protein-coding region, and this abnormality was also present in cells cultured from the tumour. These findings suggest that RB gene abnormalities may contribute to the development of glioblastomas.
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PMID:Retinoblastoma gene deletions in human glioblastomas. 201 99

Recent circumstantial evidence has implicated Insulin-like growth factor II in the genesis of several tumour types, notably developmental tumours (Scott et al., 1985; Schofield & Tate, 1987; Wilkins et al., 1989). This type of tumour, thought to originate during the defective differentiation of organ precursors (Miereau et al., 1987), often expresses greatly elevated levels of mRNA for IGF-II, a known mitogen for these cells and abundantly expressed in their presumed normal counterparts (Scott et al., 1985; Schofield & Tate, 1987; Gray et al., 1987). It has been proposed that continued, inappropriate expression of this gene drives tumour growth by an autocrine mechanism. In order to examine the potential role of IGF-II in the growth of tumour cells an IGF-II cDNA was introduced into a retroviral expression vector, and used to infect a cloned fibroblast cell line. Expression of IGF-II conferred a degree of serum independence of growth in cell culture, however, when cells were injected into nude mice as subcutaneous grafts, clones expressing IGF-II from the retrovirus were found to have a greatly increased (five fold) latency of sarcoma formation. After a prolonged lag all cell lines eventually gave rise to tumours in which the introduced IGF-II genes had either been lost or inactivated, suggesting that in this system IGF-II acts as a tumour suppressor gene.
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PMID:Tumour suppression associated with expression of human insulin-like growth factor II. 203 93

The closely related mammalian TGF-betas (TGF-beta 1, TGF-beta 2 and TGF-beta 3) are potent inhibitors of proliferation of many cell types in vitro. TGF-beta 1 has been demonstrated to be growth inhibitory in vivo for epithelial, endothelial, myeloid and lymphoid cells. Utilizing skin keratinocytes as a model system for studying the mechanism of TGF-beta 1-induced growth inhibition, it has been demonstrated that TGF-beta 1 rapidly inhibits transcription of the c-myc gene. Antisense c-myc oligonucleotides inhibit proliferation of keratinocytes as effectively as does TGF-beta 1, indicating that TGF-beta 1 suppression of c-myc expression is an important component of this growth inhibition. Studies utilizing DNA tumour virus transforming gene constructs have shown that the retinoblastoma gene product, pRb, or a related protein, is needed for TGF-beta 1 suppression of c-myc transcription. Thus, TGF-beta 1 may act through a tumour suppressor gene product, pRb, to suppress transcription of a proto-oncogene, c-myc, and subsequently inhibit cell proliferation.
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PMID:Regulation of epithelial proliferation by TGF-beta. 207 Jun 84

Genetic and molecular analyses of Drosophila have shown that tumorigenesis may arise from inactivation of single genes controlling cell growth and differentiation. Recessive mutations in a series of genes interrupt the differentiation of primordial cells and result in overgrowth, producing either hyperplasia or neoplasia. In mutant animals tumours form in either the optic centres of the larval brain, the imaginal discs or the haemopoietic organs. In Drosophila 17 genetic loci giving rise to neoplasia and six loci producing hyperplasia have been identified. The lethal(2)giant larvae gene constitutes the prototype of these genes. Its molecular cloning and analysis have demonstrated that the tumor phenotype results from a lack of gene function. Furthermore, tumour prevention was achieved by introducing a normal copy of l(2)gl into the genome of l(2)gl- deficient animals, showing that the l(2)gl gene behaves as a tumour suppressor or anti-oncogene. Melanomas of genetic origin develop in interspecies hybrids of the fish Xiphophorus. The melanoma appears when a sex linked chromosomal gene (Tu) is present among the progeny animals lacking an autosomal locus Differentiation, which acts as a tumour suppressor gene. A sequence homologous to the erb-B gene can be associated to the sex chromosomal Tu locus. This gene encodes a receptor tyrosine kinase related to the EGF-receptor, and its activation and overexpression are thought to play a critical part in melanoma formation.
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PMID:The fruit fly Drosophila and the fish Xiphophorus as model systems for cancer studies. 210 23

The goal of genetic analysis of malignant melanoma is to identify genes involved in the transformation of melanocytes and melanoma tumour progression. Three basic approaches have been used to analyze tumour progression in melanoma, and these include: (1) performing genetic linkage analysis on familial melanoma to identify the chromosomal location of genes which predispose individuals to melanoma; (2) examining tumours cytogenetically to identify frequently rearranged regions of the genome which presumably mark the location of genes involved in the evolution of melanoma; and (3) screening melanomas, using molecular techniques, to identify mutated oncogenes or tumour suppressor genes that play crucial roles in melanoma development. These studies provide strong evidence that genes on chromosomes 1, 6, 7 and 9 are involved in the aetiology of human melanoma.
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PMID:Genetics of melanoma. 210 27

Inactivation of the retinoblastoma susceptibility gene (RB-1) has been associated with the aetiology of many types of human cancers, leading to the classification of RB-1 as an anti-oncogene or tumour suppressor gene. Given that the protein product of RB-1 (Rb) has a nuclear localization and DNA-binding activity in vitro, it is possible that Rb regulates transcription of certain genes. The promoter of the c-fos gene might be a target for regulation by Rb, because both v-fos and RB-1 are associated with the induction of osteosarcomas in mice and humans, respectively. Also, fos expression is thought to be required for quiescent cells to enter the cell cycle, making the fos promoter an attractive target for suppressors of cell growth. Here we report that Rb can repress c-fos expression and AP-1 transcriptional activity in both serum-induced and cycling 3T3 cells. We have mapped a cis-acting element in the human c-fos promoter that can confer repression by Rb to a heterologous promoter. We have the termed the cis-acting sequence regulated by Rb the retinoblastoma control element.
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PMID:Negative regulation of human c-fos expression by the retinoblastoma gene product. 211 57

A tumour suppressor function for p53 is indicated in human lung cancer and in carcinoma of the colorectum. Loss of suppressor function, by mutation of the p53 gene, is associated with activation of p53 as an oncogene. The suppressor (wild type) and oncogenic (mutant) forms of the murine p53 protein are distinguishable at the molecular level by reactivity with anti-p53 monoclonal antibodies. For example, activated mutant p53 fails to react with PAb246 (p53-246 degrees). We now demonstrate that wild type p53 mRNA can be expressed either as p53-246+ or p53-246 degrees. We propose that p53-246 degrees may represent an allosteric variant of wild type p53 compatible with positive growth control. Thus, for wild type p53 the variants p53-246+ and p53-246 degrees may reflect suppressor and activator functions of p53 in the normal control of cell proliferation. For human p53 we present evidence that the epitope recognised by PAb1620 is analogous to that for PAb246 on murine p53. Thus the epitope for PAb1620 may prove to be of use as a marker for wild type human p53 with anti-oncogenic function.
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PMID:Evidence for allosteric variants of wild-type p53, a tumour suppressor protein. 213 77

Some observations on cellular senescence are discussed regarding the possibility that the postulated genes, which bring about the DNA synthesis block of senescent fibroblasts, might be similar to those designated as anti-oncogenes or tumour suppressor genes. The latter genes have been defined by tumorogenicity tests of hybrids from fused tumour and normal cells, of which the retinoblastoma (RB) gene is a prototype. Similarities between the two systems are considered, which are consistent with the assumption that senescent growth arrest, like the suppression of tumorogenicity of the hybrids, might be effected by anti-oncogenes via inhibition of cellular oncogenes in their growth signal transduction functions. A link may be provided by the finding of a direct interaction of certain DNA tumour virus oncoproteins with the RB gene product p105-RB, together with observations that the tumour viruses are also able to reinitiate DNA synthesis in growth arrested senescent fibroblasts. The possibility is also discussed that some silent retinoblastoma-like genes might become aberrantly expressed in senescent cells owing to a progressive loss of 5-methyl cytosine residues of DNA.
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PMID:Potential role of anti-oncogenes in aging. 214 70

A novel class of oncogene has been recognised whose loss-of-function results in the expression of the malignant phenotype. Two examples of such genes are the human retinoblastoma predisposition gene (RB1) and the gene encoding the cellular protein p53. These genes are thought to regulate and limit normal proliferation of cells and, as a consequence, can suppress tumorigenicity when introduced into transformed cells. They are hence frequently described as 'tumour suppressor genes'. Both RB1 and p53 gene products are bound by various transforming early proteins encoded by the DNA tumour viruses SV40, adenovirus and human papilloma virus. It is thought that they are thus sequestered and rendered inactive. Thus, a coherent model is emerging whereby inactivation, either by mutation of sequestration, of these tumour suppressor genes may contribute to natural and experimental carcinogenic processes.
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PMID:The nuclear oncoproteins: RB and p53. 215 36


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