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 earliest genetic alteration in human astrocytoma progression is mutation of the p53 tumour suppressor gene, while one of the earliest phenotypic changes is the stimulation of neovascularization. Here, we tested the role of p53 in the angiogenic process by introducing a tetracycline-regulated wild type p53 gene into null glioblastoma cells. The parental cells expressed strong angiogenic activity while upon induction of wild type, but not mutant, p53 expression, the cells secreted a factor able to neutralize the angiogenicity of the factors produced by the parental cells as well as of basic fibroblast growth factor.
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PMID:Release of an inhibitor of angiogenesis upon induction of wild type p53 expression in glioblastoma cells. 753 Oct 56

The treatment and prognosis of patients with cerebral astrocytic tumours are currently guided by histopathological classification. This study evaluates immunohistochemistry using Ki-67, an antibody to a nuclear protein expressed in proliferating cells, and DO-7, an antibody to the product of the tumour suppressor gene p53, as prognostic indicators for these tumours. Immunohistochemistry with Ki-67 has been correlated with the behaviour of many different tumours, but its value as a prognostic indicator in astrocytic tumours is diminished by the conflicting results of previous studies. Immunohistochemistry with antibodies to the p53 protein has been used as a prognostic indicator in melanomas and some carcinomas, but the relation between prognosis and accumulation of this protein in astrocytic tumours has not been clarified. We have tested the hypothesis that survival is correlated with Ki-67 immunolabelling indices (LIs) and patterns of p53 immunolabelling in the cerebral astrocytic tumours of a large cohort of patients (n = 123) for whom clinical indices were well documented. Astrocytic tumours were divided into three histological types: fibrillary astrocytoma (n = 24), anaplastic astrocytoma (n = 31), and glioblastoma (n = 68). Histological type and patient age were independent predictors of survival. Median Ki-67 LIs differed significantly (P < 0.0001) between the types of astrocytic tumour, and tumours with a Ki-67 LI < 2% had a significantly (P < 0.0001) better prognosis. Ki-67 LI as a continuous variable carried a significant (P = 0.0043) unadjusted hazard to survival which was lost when adjusted for other variables, notably histological type. By contrast, no relation was found between survival and three categories of p53 labeling (p53-negative, p53 LI < 40%, and p53 LI > 60%). The results indicate that, whereas Ki-67 immunohistochemistry predicts survival in patients with astrocytic tumours, conventional histological appraisal remains the best guide to prognosis, and immunohistochemistry for p53 has no value in the assessment of these tumours.
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PMID:Prognostic indicators in a range of astrocytic tumours: an immunohistochemical study with Ki-67 and p53 antibodies. 756 22

Expression of platelet derived growth factor (PDGF) and PDGF-receptor mRNA was examined from a glioblastoma taken from a patient with Li-Fraumeni syndrome. Northern blot analysis and in situ hybridisation showed very high concentrations of both PDGF-A and PDGF alpha-receptor mRNA in the tumour. The overall pattern of PDGF expression was similar to those found in sporadic glioblastomas. Mutations in p53 has been implicated as an early pathogenic event leading to sporadic low grade astrocytomas, and is the third most common tumour type in patients with Li-Fraumeni syndrome, where they are predisposed due to a germline mutation in the p53 tumour suppressor gene. This study suggests that progression towards a glioblastoma in both the general population and in patients with Li-Fraumeni syndrome may involve potential autocrine and paracrine stimulation by growth factors such as PDGF.
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PMID:Expression of platelet derived growth factor and platelet derived growth factor receptor mRNA in a glioblastoma from a patient with Li-Fraumeni syndrome. 760 73

A human pilocytic astrocytoma-derived cell line, a grade III astrocytoma-derived cell line, and a glioblastoma-derived cell line were transfected with the human wild-type p53 gene, in order to demonstrate the possible suppressor role of this gene in low grade as well as in high grade human astrocytomas. p53 exhibited a strong growth suppressor effect on the three cell lines studied, irrespective of the grade of malignancy of the tumours from which they originate. Furthermore, the p53 gene elicited important morphological changes in these cell lines. p53-Transfected cells displayed a flat morphology, a large cell body, and a stellate shape with long processes, characteristic of differentiated astrocytes. In addition, the growth inhibitory effect of p53 was found not to be due to induction of apoptosis. These results indicate that p53 plays a tumour suppressor role in low grade and high grade human astrocytomas and raise the possibility of the involvement of p53 in glioma cell differentiation in vitro.
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PMID:Human wild type p53 inhibits cell proliferation and elicits dramatic morphological changes in human glioma cell lines in vitro. 770 71

Deletions involving regions of chromosome 10 occur in the vast majority (> 90%) of human glioblastoma multiformes. A region at chromosome 10q23-24 was implicated to contain a tumour suppressor gene and the identification of homozygous deletions in four glioma cell lines further refined the location. We have identified a gene, designated MMAC1, that spans these deletions and encodes a widely expressed 5.5-kb mRNA. The predicted MMAC1 protein contains sequence motifs with significant homology to the catalytic domain of protein phosphatases and to the cytoskeletal proteins, tensin and auxilin. MMAC1 coding-region mutations were observed in a number of glioma, prostate, kidney and breast carcinoma cell lines or tumour specimens. Our results identify a strong candidate tumour suppressor gene at chromosome 10q23.3, whose loss of function appears to be associated with the oncogenesis of multiple human cancers.
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PMID:Identification of a candidate tumour suppressor gene, MMAC1, at chromosome 10q23.3 that is mutated in multiple advanced cancers. 909 Mar 79

Little is known about the relationship between genetic recombination mechanisms and loss of tumour suppressor genes in solid tumours. Here, we demonstrate deletion and truncation of both p53 alleles in a primary human glioblastoma and a derived cell line as the combined result of a t(17;20) reciprocal translocation and a 1.1 Mbp genomic deletion on chromosome 17p, starting in intron 4 of the p53 gene and ending at the telomeric CA-repeat marker D17S960. These results (i) suggest that genetic instability can lead to loss of tumour suppressor gene function in solid cancers, (ii) provide mapping of one such recombination event at the nucleotide level, and (iii) establish the orientation of the p53 gene on chromosome 17 as: centromere 5'-3'-telomere.
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PMID:Genetic instability leads to loss of both p53 alleles in a human glioblastoma. 946 57

The gemistocytic astrocytoma is a histological variant of diffuse astrocytomas and is characterised by the presence of large, GFAP-expressing neoplastic astrocytes (gemistocytes) and a tendency towards rapid progression to glioblastoma. In this study, we analyzed 28 gemistocytic astrocytomas (mean fraction of gemistocytes, 35.0+/-9.9%) for mutations in the p53 and PTEN (MMAC1) tumour suppressor genes. Single strand conformation polymorphism (SSCP), followed by direct DNA sequencing of p53 exons 5-8, revealed a mutation in 23 of 28 (82%) cases. Regional analysis of four tumours revealed identical p53 mutations in gemistocytic and fibrillary tumour areas. In contrast, none of 15 gemistocytic astrocytomas (WHO Grade II) and only two of 11 (18%) anaplastic gemistocytic astrocytomas (WHO Grade III) contained a PTEN mutation. Of these, one was a 1 bp deletion in codon 345 and the other a 1 bp insertion in intron 4. Differential PCR did not reveal homozygous PTEN deletion in any of the tumours analysed. These results indicate that p53 mutations are a genetic hallmark of gemistocytic astrocytomas, whilst PTEN mutations are absent in low-grade and rare in anaplastic gemistocytic astrocytomas.
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PMID:p53 and PTEN gene mutations in gemistocytic astrocytomas. 965 Jul 46

Representational difference analysis (RDA) of a human glioblastoma xenograft resulted in the isolation of five tumour-associated homozygously deleted DNA fragments, all originating from chromosome 9, region p21. Subsequent analysis of a series of ten glioblastomas using the newly isolated RDA fragments in conjunction with a series of known 9p21 DNA markers revealed homozygous deletions in nine of the ten (90 per cent) tumours. These deletions encompass the p15/p16 complex and two additional putative tumour suppressor loci. The RDA fragments correspond to the latter two loci. Taken together, these results suggest the involvement of multiple tumour suppressor genes from the 9p21 region in glioblastoma tumourigenesis. The novel RDA fragments will be instrumental in the isolation of the relevant genes.
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PMID:Isolation and characterization of glioblastoma-associated homozygously deleted DNA fragments from chromosomal region 9p21 suggests involvement of multiple tumour suppressor genes. 1054 3

As concerns human adult brain neoplasms, the biological behaviour of glioblastoma, a high-grade neuro-ectodermal tumour, is among the most disadvantageous. Glioblastoma may develop either as a primary tumour without clinical and histological evidence of a prior precursor lesion, or as the final stage of malignant transformation of a low-grade or anaplastic astrocytoma. There are conflicting reports in connection with the association of the p53 tumour suppressor gene mutation with the clinical and histological progression of gliomas. Previous studies likewise led to contradictory results concerning the significance of ras oncogenes in different histological malignancies, and especially in neuro-epithelial tumours. The possible roles of p53 and ras gene alterations in the development of "primary" and "transformed" glioblastomas were studied in this work. Eighteen tumours were investigated by means of immunohistochemistry and polymerase chain reaction-assisted-single strand conformation polymorphism (PCR-SSCP) sequence analysis in a search for molecular genetic differences between primary and transformed glioblastomas. An increased incidence of p53-immunopositive cells was observed in both types of glioblastomas but there was no significant difference between the transformed tumours and the primary form. All samples were screened for point mutation in codons 12 and 61 of the H-, K-, and N-ras oncogenes and exons 5-8 of the p53 gene. No aberrant band or mutation was found in the H-, K- and N-ras oncogenes. Aberrant bands were seen in only 2 (11%) of the 18 tumours in the SSCP analyses of exons 6 and 8. Sequence analysis of the 2 abnormal cases revealed G --> C transmission in the second nucleotide of codon 280 on exon 8, which resulted in a change in the encoded amino acid from arginine to threonine (case 15). A ttagtct --> ttggtct transmission on intron 5 (case 8) was also found. No genetic difference could be identified between the primary and the transformed glioblastoma forms as concerns their p53 and ras oncogenes. There are two possible explanations for these findings: (a) The p53 and ras gene mutations were not primary events in the morphological transformations. Alterations in these genes may therefore take place at an early stage in glioma progression. (b) The different genetic changes may accumulate during glioblastoma development. These specific genetic events may additionally play a role in multistep tumourigenesis.
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PMID:Sporadic p53 mutations and absence of ras mutations in glioblastomas. 1092 24

Astrocytomas are the leading cause of brain cancer in humans. Because these tumours are highly infiltrative, current treatments that rely on targeting the tumour mass are often ineffective. A mouse model for astrocytoma would be a powerful tool for dissecting tumour progression and testing therapeutics. Mouse models of astrocytoma have been designed to express oncogenic proteins in astrocytes, but have had limited success due to low tumour penetrance or limited tumour progression. We present here a mouse model of astrocytomas involving mutation of two tumour-suppressor genes, Nf1 and Trp53. Humans with mutations in NF1 develop neurofibromatosis type I (NF1) and have increased risk of optic gliomas, astrocytomas and glioblastomas. The TP53 tumour suppressor is often mutated in a subset of astrocytomas that develop at a young age and progress slowly to glioblastoma (termed secondary glioblastomas, in contrast to primary glioblastomas that develop rapidly de novo). This mouse model shows a range of astrocytoma stages, from low-grade astrocytoma to glioblastoma multiforme, and may accurately model human secondary glioblastoma involving TP53 loss. This is the first reported mouse model of astrocytoma initiated by loss of tumour suppressors, rather than overexpression of transgenic oncogenes.
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PMID:Nf1;Trp53 mutant mice develop glioblastoma with evidence of strain-specific effects. 1097 61


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