UNIPROT:P43146 - FACTA Search

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Query: UNIPROT:P43146 (tumour suppressor)
5,935 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Abnormalities of the p53 tumour suppressor gene are among the most frequent molecular events in human and animal neoplasia. Moreover, p53 is one of the most studied proteins in the whole of contemporary biology, with more than 12,500 papers so far written! In this review the choice has been deliberately made not to be fully comprehensive in the coverage of the huge p53 literature. Rather attention is focused on a small number of recent developments which are reviewed in the context of modern models of p53 function. Progress in the analysis of signalling to p53 including phosphorylation cascades, and interactions with proteins such as mdm2 and ARF are highlighted. The plethora of protein-protein interactions is discussed, as are the strategies for defining downstream targets of p53. Finally, the emerging biology of p53 homologues is considered. The need for bridging the gap between reductionist, biochemical and biophysical studies and biological and genetic analysis is emphasized. Only this will provide the needed framework for utilizing the information in clinical care.
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PMID:The p53 pathway. 1034 12

S100 is an acidic-calcium-binding protein, composed as a heterodimer of two isomeric subunits alpha and beta and was first described in cells of neuroendocrine origin. It plays an important role in various cellular processes such as cell differentiation and proliferation and interacts with the tumour suppressor gene p53.S100 is also present in melanoma cells and its immunhistochemical detection is widely used in the histopathological diagnosis of malignant melanoma. S100 has been detected in the serum of patients with malignant melanoma and many clinical studies have been performed to establish this protein as a tumor marker in different stages of the disease. The data suggest that S-100 beta-protein in serum of patients with malignant melanoma could be an independent prognostic marker and an additional clinical parameter for progression of metastatic disease and serological monitoring during systemic therapy. However there are patients in stage of lymph node- or systemic metastasis with negative S-100 beta-serum levels and no correlation to the course of disease. Our results confirm the findings for patients in stage III/IV. However, the percentage of S-100 beta-positive patients in stage III/IV is lower than reported in the literature, if repeatedly positive samples are excluded from statistical analysis. For monitoring in stage I and II it seems to be not helpful.
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PMID:[S-100 beta protein in serum, a tumor marker in malignant melanoma-- current state of knowledge and clinical experience]. 1035 16

The transcriptional activity of the p53 tumour suppressor is inhibited by binding to MDM2. The in vivo significance of this interaction was established in mdm2 null mice. Embryonic lethality due to loss of mdm2 is completely rescued by deletion of p53, indicating that the lethality is due to inability to down-modulate p53 function. The production of mice null for both p53 and mdm2 led to an assessment of the role of MDM2 in tumour development. Tumour latency and spectrum in p53 null mice were monitored in the presence or absence of mdm2. Two unusual findings resulted: tumour latency in p53 null/mdm2 heterozygous mice was longer than in p53/mdm2 double-null mice; and the incidence of sarcomas was higher in p53 null/mdm2 heterozygous mice than in p53 null or p53/mdm2 double-null mice. These data raise the possibility that heterozygosity at the mdm2 locus in the absence of p53 affects the development of tumours of mesenchymal origin.
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PMID:Loss of one but not two mdm2 null alleles alters the tumour spectrum in p53 null mice. 1041 3

Tumour suppressor genes and oncogenes that control proliferation and apoptosis are known to play an important role in embryogenesis, second trimester fetal oocyte loss, adult ovulation, and in adult male testicular degeneration. We have examined tumour suppressor genes, oncogenes and oestrogen receptors during first trimester human gonadal differentiation to investigate their role at this crucial phase in development. Immunohistochemistry was used to localize the gene products of Bcl-2, c-erB-2, c-myc, p53, nm23 and oestrogen receptor. As gonadal development occurred at 6-12 weeks gestation, a changing pattern of expression was observed that varied in different cell types. The oestrogen receptor was not present in oogonia, spermatogonia and supporting cells during the first trimester. This study highlights the importance of oncogenes and tumour suppressor genes in first trimester gonadal development.
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PMID:Oncogenes and tumour suppressor genes in first trimester human fetal gonadal development. 1042 1

Tumour suppressor genes and growth regulatory genes are frequent targets for methylation defects that can result in aberrant expression and mutagenesis. We have established a methylation map of the promoter region of the neurofibromatosis (NF1) gene and demonstrated functional sensitivity for methylation at specific sites for the SP1 and CRE binding (CREB) proteins in the NF1 regulatory region. We evaluated the methylation status of CpG dinucleotides within five promoter subregions in the human and mouse homologues of the neurofibromatosis (NF1) genes. Three 5' subregions were found to be consistently methylated in all the tissues analysed. In contrast, DNA methylation was absent in the vicinity of the transcription start site bounded by SP1 recognition sequences. Gelshift assays showed that methylation specifically inhibits the CREB transcription factor from binding to its recognition site at the NF1 transcription start site. Furthermore, SP1 elements within the NF1 promoter are methylation sensitive, particularly when methylation is present on the antisense strand. We propose that for NF1 as with several other tumour suppressor genes, CpG methylation occurs in a complex, site-specific manner with the maintenance of a methylation-free promoter region bounded by SP1 binding sites that allow an accessible promoter to be retained. When these SP1 boundaries are breached, methylation can sweep in, rendering the promoter inaccessible for specific methylation-sensitive transcription factors and leading to a loss of functional integrity of the methylation-free CpG island.
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PMID:Site-specific DNA methylation in the neurofibromatosis (NF1) promoter interferes with binding of CREB and SP1 transcription factors. 1043 92

A variety of studies suggest that tumour suppressor loci on chromosome 11p are important in various forms of human neoplasia. Recently, a gene located at the chromosome 11p 15.1-15.2 region called TSG101 was discovered and proposed as a candidate tumour suppressor gene in breast cancers. We evaluated the TSG101 gene in a panel of liver cancer cell lines and paired tumours and non-malignant tissues. In this study, four of the seven (57%) cell lines, eight of the 18 (44%) tumours and four of the 18 (22%) non-malignant liver tissues exhibited aberrant TSG101 transcripts by nested reverse transcription-polymerase chain reaction (RT-PCR) analysis. However, a normal-sized transcript without sequence abnormalities verified by single-stranded conformation polymorphism (SSCP) analysis was expressed at robust levels in all the cell lines and most of the tissue samples tested. In addition, Southern blot analysis could identify no genomic abnormalities of the gene. Our results suggest either that the TSG101 gene may not be involved in hepatocarcinogenesis or that it plays a role in the development and/or progress of hepatocellular carcinomas through an unusual mechanism.
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PMID:Analysis of aberrant transcription of TSG101 in hepatocellular carcinomas. 1044 75

The unsatisfactory results of current anti-cancer therapies require the active search for new drugs, new treatment strategies and a deeper understanding of the host-tumour relationship. From this point of view, the drugs with a capacity to substitute the functions of altered tumour suppressor genes are of prominent interest. Since one of the main functions of oncosuppressors is to mediate cell cycle arrest via modification of cyclin dependent kinases (CDKs) activity, the compounds with ability to substitute altered functions of these genes in neoplastic cells are of prominent interest. Synthetic inhibitors of cyclin dependent kinases (CDKIs) are typical representatives of such drugs. Olomoucine (OC), flavopiridol (FP), butyrolactone I (BL) and their derivatives selectively inhibit CDKs and thus constrain tumor cell proliferation under in vitro and/or in vivo conditions. We originally discovered OC and its inhibitory activity toward CDK1 family of CDKs, and recently reported the induction of apoptosis and tumor regression following OC application. Moreover, the OC family of synthetic CDKIs has the capacity of directly inhibit CDK7, the principal enzyme required for activating other CDKs, and thus these compounds are the first known CDK7 inhibitors. Its unique mechanism of action and potent anti-cancer activity under both in vitro and in vivo conditions provide a unique tool to inhibit tumour cell proliferation, and to selectively induce apoptosis in neoplastic tissues. The mechanisms of anti-cancer activities of FP, BL, OC and related synthetic CDKIs are compared and discussed in this paper.
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PMID:Synthetic cyclin dependent kinase inhibitors. New generation of potent anti-cancer drugs. 1050 Aug 10

During the development of cancer a series of specific genetic alterations have to occur in a stepwise fashion to transform a normal somatic cell into a malignant tumor cell. These genetic changes can be roughly divided in two groups: mutations in proto-oncogenes that result in a constantly activated gene product and mutations in tumor-suppressor genes that result in loss of function. While oncogenic mutations often have a dominant phenotype and mutation of one allele is sufficient for activation, in general both alleles of a tumor suppressor gene have to be disrupted to abolish its function. The requested specificity for activating mutations in proto-oncogenes is high, since only a limited number of mutations at specific sites result in an activated protein. In contrast, disruption of a tumor suppressor gene can be accomplished via various mechanisms. Familial cancers often contain a germline mutation in one allele of a tumor suppressor gene. In tumors, the second allele is then frequently lost by genetic alterations that also affect the heterozygous state of multiple loci adjacent to the tumor suppressor gene. Genetic events especially, such as mitotic recombination, chromosome loss and deletion, are frequently responsible for the loss of the functional allele of heterozygous mutant tumor suppressor genes. We generated an Aprt(+/-) mouse model that allows us to study in detail the nature of the alterations that lead to loss of the wild-type Aprt allele in somatic cells. These genetic changes are thought to be analogous to those occurring at autosomal tumour suppressor genes, where they may contribute to the development of cancer. Furthermore, this mouse model allows determination of the extent and mechanisms by which chemical carcinogens induce loss of heterozygosity and identification of the nature of the DNA adducts responsible.
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PMID:Heterozygous Aprt mouse model: detection and study of a broad range of autosomal somatic mutations in vivo. 1052 30

Vascular endothelial growth factor (VEGF) and basic fibroblast growth factor (bFGF) are two important determinants of angiogenesis in human cancers. Expression of VEGF and bFGF was examined by immunohistochemistry in 120 colorectal cancers. Neoplasms were classified according to the presence or absence of microsatellite instability determined at six microsatellite loci and labelled as a high microsatellite instability (MSI-H), low microsatellite instability (MSI-L) or microsatellite stable (MSS). Only 4/30 MSI-H cancers expressed VEGF (13 per cent), compared with 24/64 MSS cancers (38 per cent; p< 0.01). Fewer MSI-H cancers showed bFGF expression (38 per cent) than MSS cancers (53 per cent; p< 0.09). MSI-L cancers showed the same pattern as MSS cancers. Western blotting and immunohistochemistry showed that the tumour suppressor gene p53 was mutated infrequently in MSI-H cancers (8 per cent; p< 0. 001). Microvessel density counts using CD31 and UEA-1 demonstrated no difference in the number of blood vessels in MSI-H and MSS cancers. Although these results are consistent with the known role of wild-type p53 in down-regulating VEGF, no association was found between a mutation in p53 and VEGF or bFGF levels in all colonic neoplasms. This is the first evidence that MSI-H cancers may follow a different pathway to angiogenesis. The low frequency of VEGF expression amongst MSI-H cancers may partially explain why these cancers are less aggressive, with a better overall prognosis.
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PMID:Angiogenic factor VEGF is decreased in human colorectal neoplasms showing DNA microsatellite instability. 1054 92

Specific defects in DNA repair pathways are reflected by DNA microsatellite instability (MSI) and play an important role in carcinogenesis. Reported frequencies in gastric non-Hodgkin's lymphomas (NHL) vary from 14% to as high as 90%. Another form of genetic instability in tumours is allelic imbalance (AI) due to loss or gain of genetic material at a specific chromosomal region. This might point to the presence of a tumour suppressor gene or oncogene. We examined both MSI and AI in 26 gastric lymphomas (10 low-grade and 13 high-grade MALT lymphomas and three cases lacking MALT features and categorised as diffuse large B cell lymphoma (DLCL)). Tumour components and normal cells (epithelium, muscle) were microdissected from paraffin-embedded resection samples. Contrary to other studies we did not observe frequent MSI when investigating 18 different loci distributed over 12 chromosomes. Microsatellite instability of a single locus was found in 1/10 (10%) low-grade MALT lymphomas and 2/13 (15%) high-grade MALT lymphomas. These data indicate that DNA mismatch repair genes do not play a role in the pathogenesis of these lymphomas. Allelic imbalance was detected in 60% (6/10) of low-grade MALT lymphomas, in 62% (8/13) of high-grade MALT lymphoma and in 67% (2/3) of DLCL. In high-grade lymphomas more loci showed AI (one to seven loci, with a mean of 2.5 loci per case) than in the low-grade lymphomas (one to two loci, with a mean of 1.3 loci per case), possibly reflecting an increased genomic instability.
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PMID:Frequent allelic imbalance but infrequent microsatellite instability in gastric lymphoma. 1055 55

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