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

Deletions of chromosome 5 were initially reported as a consistently occurring chromosomal abnormality in 5q- syndrome. They have since been recognized to occur in other myeloid malignancies such as therapy-related leukaemia and de novo AML as well. The variability of the deletions, and the heterogeneity of the clinical syndromes, have made it difficult to describe a single clinical-molecular entity such as we see with chromosomal translocations described elsewhere in this volume. Translocations in leukaemogenesis often have a dominant effect leading to activation of oncogenes or the production of a modified protein. Consistently occurring chromosomal deletions in human tumours, however, have been regarded as evidence that the affected regions contain tumour suppressor genes. Loss of function of these tumour suppressor genes or 'recessive oncogenes' leads to cancer. Deletions in the long arm of chromosome 5 in myeloid malignancies are thought to signal the existence of a recessive oncogene on 5q, which is homozygously inactivated in these malignancies. Here we describe the clinical and molecular features of the diseases associated with deletions of chromosome 5 in an attempt to propose a unified approach to identifying the genes on 5q which are involved in leukaemogenesis. It is likely that the clinical heterogeneity of these disorders will not be understood until the relevant genes are cloned and their role in the initiation or progression of leukaemia is known.
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PMID:Myeloid malignancies and chromosome 5 deletions. 133 91

Interleukin 6 (IL-6) and leukaemia inhibitory factor (LIF) can have pleiotropic effects on different cell types. M1 myeloid leukaemic cells respond to IL-6 with activation of a terminal differentiation programme which includes activation of genes for certain haemopoietic regulatory proteins (IL-6, IL-1 alpha, IL-1 beta, granulocyte-macrophage colony-stimulating factor [GM-CSF], M-CSF, tumour necrosis factor and transforming growth factor [TGF] beta 1) and for receptors for some of these proteins, thus establishing a network of positive and negative regulatory cytokines. IL-6 and some other cytokines also induce during differentiation sustained levels of transcription factors that can regulate and maintain gene expression in the differentiation programme. M1 leukaemic cells induced to differentiate with IL-6 undergo programmed cell death (apoptosis) on withdrawal of IL-6, and can be rescued from apoptosis by IL-6, IL-3, M-CSF, G-CSF or IL-1, but not by GM-CSF. These differentiating leukaemic cells can also be rescued from apoptosis by the tumour promoter TPA (12-O-tetradecanoylphorbol-13-acetate) but not by the non-tumour-promoting isomer 4-alpha-TPA, and rescue from apoptosis can be achieved by different pathways. Apoptosis can also be induced in undifferentiated M1 leukaemic cells by expression of the wild-type form of the tumour suppressor p53 protein and IL-6 can rescue the cells from this wild-type p53-mediated apoptosis. There are clones of M1 cells that differentiate with IL-6 but not with LIF and another M1 clone that differentiates with either IL-6 or LIF. Differentiation induced by IL-6 or LIF is inhibited by TGF-beta 1. The pleiotropic effects of LIF, like those of IL-6, are presumably also in a network of interacting regulatory proteins.
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PMID:Regulation of leukaemic cells by interleukin 6 and leukaemia inhibitory factor. 142 20

Loss of a whole chromosome 5 or deletion of 5q are recurring abnormalities in malignant myeloid neoplasms. Chromosomal loss or deletion are the hallmarks of tumour suppressor genes, suggesting that a gene(s) located on 5q may function as a leukaemia suppressor gene. To determine the location of genes on 5q that may be involved in myeloid leukaemogenesis, we examined the breakpoints of the del(5q) in a series of 117 patients with malignant myeloid diseases. By comparing the breakpoints, we identified a small segment of 5q, consisting of band 5q31, that was deleted in each patient. This segment has been termed the critical region. A striking number of genes encoding haematopoietic growth factors have been mapped within or adjacent to the critical region. These include the genes encoding CSF-2, IL-3, IL-4, IL-5 and IL-9. By using fluorescence in situ hybridization, we have refined the localization of these genes to 5q31.1. To facilitate the identification of a tumour suppressor gene on 5q, we are currently preparing a physical map of 5q31. With FISH analysis of a series of cosmid and phage clones, we identified a number of clones within 5q31. By hybridizing these probes to metaphase cells with a del(5q) involving proximal or distal breakpoints within 5q31, we have narrowed the critical region to a small segment of 5q31 containing eight of the cosmids. In addition, we found that the five growth factor genes are excluded from this region. We have used dual colour FISH to determine the order of these cosmids, the order of the known genes mapped to 5q23-33 and the relationship of these genes to the critical region. To date, mutations of these genes in leukaemia cells have not been identified. The clinical features of myeloid diseases associated with a del(5q) are variable (RA 5q- syndrome v. AML); thus, once the involved gene is identified, it will be important to determine whether the same gene is involved in both types of myeloid disorders.
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PMID:Deletions of chromosome 5 in malignant myeloid disorders. 145 Nov 9

The development of Friend virus induced murine erythroleukaemia is associated with specific genetic events. One of these events is loss of wild type p53 expression, which can occur by internal deletion or proviral insertion in the p53 gene and by single point mutations in the coding sequence. In all cases, the corresponding wild type allele is absent. The high frequency of observed p53 mutations strongly suggests that inactivation of p53 may be an obligatory step in the development of Friend disease. Further evidence that abrogation of normal p53 expression contributes to the development of malignant clones was provided by in vitro reconstitution experiments in Friend cell lines: whereas exogenous mutant p53 was stably expressed in p53 negative FCLs, long term wild type p53 expression was not detected. Friend erythroleukaemia arises as a late consequence of infection of susceptible mice with Friend virus. In addition to p53 gene mutations, proviral insertions occur frequently adjacent to one of two cellular genes, Spi-1/PU.1 or Fli-1. Aberrant expression of these genes may therefore be involved in virus induced erythroleukaemia. Interaction of SFFV env gp55 with the EPO-R also appears to be important in providing a mitogenic signal to infected cells. The order in which these events occur and whether the order is relevant to the progression of the disease are not known. Investigation of the stepwise appearance of these events could provide information on the possible interactions of the gene products involved. Abrogation of normal p53 expression is not restricted to Friend erythroleukaemia: the observation of p53 mutations and allele loss in human breast, lung, colon and hepatocellular carcinomas and in leukaemia suggests that mutation of p53 may be the most common genetic abnormality detected in human cancer (reviewed in this issue). Studies of p53 expression in FCLs provided an early indication that p53 was a tumour suppressor gene. Further studies of the mechanisms by which wild type and mutant p53 affect the growth of p53 negative FCLs may reveal important biochemical properties of p53 in relation to cell cycle control and differentiation of erythroid cells.
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PMID:Friend virus induced murine erythroleukaemia: the p53 locus. 163 45

Mutations of the p53 tumour suppressor gene have frequently been observed in several types of solid tumours and are believed to be implicated in the development of these tumours. To determine the relevance of p53 mutations in haematologic neoplasms, we performed polymerase chain reaction-single strand conformation polymorphism analysis on the p53 gene in 45 patients with various types of haematologic neoplasms. In exons 5-8 containing highly conserved regions, mobility shifts indicating sequence alterations were detected in four of the 45 patients, and subsequent sequencing was performed. A point mutation resulting in a novel stop codon was detected at codon 213 in one of 23 cases of chronic myelogenous leukaemia (one of five cases of blast crisis). Point mutations causing amino acid substitutions were detected in one of four cases of myelodysplastic syndrome at codon 195, one of three cases of adult T-cell leukaemia at codon 281, and one of eight cases of acute lymphoblastic leukaemia at codon 281, and these missense mutations were accompanied by loss of the wild type allele. Patients harbouring these nonsense and missense mutations were in advanced disease stages. These findings suggest that mutational inactivation of the p53 gene is infrequent but is involved in the tumorigenesis of several types of haematologic neoplasms at least in some cases.
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PMID:Mutations of the p53 tumour suppressor gene in haematologic neoplasms. 848 63

We have characterised a region of deletion on the long arm of chromosome 6 (6q) in six cases of acute lymphoblastic leukaemia, by fluorescence in situ hybridisation, using a series of YAC clones which map to 6q. Conventional cytogenetic analysis of four of these cases had been interpreted as showing terminal deletions of 6q. We demonstrated by FISH that in all cases the deletions were interstitial. D6S246 (6q16.3) was the only marker which was missing in all six cases, indicating a common region of deletion between the markers M6P1 at 6q14-15 and FYN at 6q21. Our results suggest the presence of a tumour suppressor gene within this interval.
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PMID:Deletion of a common region on the long arm of chromosome 6 in acute lymphoblastic leukaemia. 751 70

We have used fluorescence in situ hybridisation (FISH) with a series of yeast artificial chromosome (YAC) clones that map to the long arm of chromosome 6 (6q) to define the region(s) of deletion in seven cases of non-Hodgkin's lymphoma (NHL), in which a deletion of 6q had been detected by conventional cytogenetics. The FISH analysis detected two regions of deletion: (i) A proximal region flanked by M6P1 (6q14-15) and FYN (6q21), containing D6S246, which was missing in all seven cases. This locus was also found to be deleted in all six cases of acute lymphoblastic leukaemia (ALL) studied previously. (ii) A second region of 6q, which was distal to 6q23.1 (D6S238) and included ESR (6q25.1) and D6S281 (6q27), which was shown to be present in all our cases of ALL, was found to be deleted in 4 of the 7 cases of NHL. Our results support the suggestion that tumour suppressor genes, involved in the pathogenesis of lymphoid malignancies, may be present within these regions.
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PMID:Common region of deletion on the long arm of chromosome 6 in non-Hodgkin's lymphoma and acute lymphoblastic leukaemia. 752 44

The cyclin-dependent kinase inhibitors known as p15, p16 and p18 have been suggested as candidates for tumour suppressor genes. We examined these genes for their alterations in 46 myeloid leukaemias and 15 myeloid leukaemia cell lines. p16 mRNA expression was studied in 41 myeloid leukaemias. The p15 and p16 genes were either deleted or mutated in myeloid leukaemia lines at a high frequency [6/15 (40%) for p15; 8/15 (53%) for p16] but alterations in primary myeloid leukaemias are much less frequent [2/46 (4%) for p15; 3/46 (6%) for p16]. Alterations of p18 were not found in any of the samples. 13 primary myeloid leukaemia samples had negligible levels of p16 mRNA. In summary, the deletions of p15 and p16 genes identified in the myeloid leukaemia cell lines probably occurred during their in vitro immortalization. Alterations of the p16 or p15 gene only occurred in primary acute myeloid leukaemia samples that were of mixed myeloid/lymphoid lineage (CD19/CD20-positive acute myeloid leukaemia [AML], CD2/CD19-positive AML, and lymphoid blastic crisis of chronic myeloid leukaemia). Further studies are required to determine if the absence of mRNA expression results from inactivation of the p16 gene.
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PMID:Structural integrity of the cyclin-dependent kinase inhibitor genes, p15, p16 and p18 in myeloid leukaemias. 757 21

Recent investigations revealed that the 9p arm and 17q arm of human chromosomes harbour tumour suppressor genes (TSGs) with an important role in multistage carcinogenesis. At the 9p arm is located the p16 (MTS1) TSG and probably others with an effect on various human tumours such as acute lymphoblastic leukaemia, bladder cancer, gliomas, malignant mesotheliomas, melanomas and non-small cell lung carcinomas. In addition, the 17q arm harbours BRCA1 TSG which is responsible for approximately 80% of the familial breast/ovarian cancer cases. In order to investigate the implication of these performed a loss of heterozygosity (LOH) analysis with 10 polymorphic microsatellite markers (three at the 17q arm surrounding the BRCA1 region and seven at the 9p arm). Fourteen of the 17 (82%) tumours exhibited deletions at 9p. The highest incidence of LOH (6/13, 46%) was found for the marker D9S157 at 9p22. One sample exhibited deletion of all the informative markers tested indicating deletion of the complete 9p arm. No homozygous deletions were found. LOH at the 17q arm near the BRCA1 locus was found in 6 (35%) among 17 specimens. The results of this study indicate that allelic deletions at 9p are frequent in the development of laryngeal tumours. The highest incidence of LOH was found for the marker D9S157 which is near, but distinct from the location of p16 (MTS1) tumour suppressor gene, indicating the presence of multiple tumour suppressor genes within this chromosomal region. In addition, BRCA1 TSG is implicated in the development of laryngeal tumours.
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PMID:Loss of heterozygosity at 9p and 17q in human laryngeal tumors. 758 72

The blast cells from up to 70% of patients with acute myeloblastic leukaemia exhibit a variable degree of autonomous growth in vitro, which is related to the production of autocrine growth factors. It has recently been established that patients with autonomous blast cell growth have both a lower remission rate and a higher relapse rate, compared to otherwise comparable patients whose blasts exhibit non-autonomous in vitro growth. In a group of 50 patients the actuarial disease-free survival for the autonomous growth group was 11% at 5 years compared to greater than 50% for the non-autonomous growth group. This data suggests that AML blasts with autocrine growth characteristics may be resistant to cytotoxic drug therapy. Here we present further data demonstrating that AML blasts with autonomous growth are relatively resistant to the induction of programmed cell death (apoptosis) and that this is related to the autocrine production of GM-CSF. Also AML blasts with autonomous growths have aberrant expression of genes associated with resistance to apoptosis induced by cytotoxic drugs. These include high expression of the bcl-2 oncoprotein and abnormalities of expression of the p53 tumour suppressor gene. Furthermore bcl-2 expression was found to be unregulated by both exogenous and autocrine GM-CSF suggesting that the documented negative prognostic effect of autonomous growth on treatment outcome in AML, is in part due to the regulatory effect of autocrine GM-CSF on bcl-2 expression, thus protecting cells from apoptosis induced by cytotoxic drug therapy.
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PMID:Biological features of leukaemic cells associated with autonomous growth and reduced survival in acute myeloblastic leukaemia. 771 30


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