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

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 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

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

Most studies of the clonal origin of the underlying lesion(s) and all investigations using X-inactivation, have concluded that the myelodysplastic syndromes arise from a multipotent stem cell. Non-random chromosomal abnormalities, particularly deletions of 5q and 7q, are common, most notably in therapy related MDS. Progression to AML is also frequently accompanied by increased genomic instability as evidenced by the emergence of multiple karyotypic abnormalities. While some evidence hints at the presence of tumour suppressor genes on chromosomes 5, 7, 20 and 12, no such genes have yet been identified. The search for point mutations in known oncogenes has concentrated on two oncogenes RAS and c-FMS. Point mutation frequency generating active forms of RAS oncogenes is approximately 40% in MDS overall, up to 80% in studies of CMML. 60% of all MDS RAS mutation involves a G to A transition, producing a substitution of aspartate for glycine at a frequency of 50% (of total ras mutants). RAS mutation is associated with progression to AML, although the presence of a RAS point mutation alone is neither necessary nor sufficient for leukaemic transformation. Mutation of c-FMS is also more common in CMML in comparison to other MDS subtypes and, as yet, point mutation potentiating the response of the receptor to CSF-1 (codon 969) has been found more frequently than point mutation resulting in permanently activated receptor (codon 301). However, recent work has identified additional mutations which produce transforming proteins, and mutation rates at these sites may be relevant in MDS.
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PMID:Myelodysplastic syndromes: from morphology to molecular biology. Part II. The molecular genetics of myelodysplasia. 849 99

The CCAAT/enhancer binding protein alpha (C/EBPalpha or CEBPA) is the founding member of a family of related leucine zipper transcription factors that play important roles in myeloid differentiation. Targeted inactivation of C/EBPalpha in mice demonstrates its importance in the proper development and function of liver, adipose tissue, lung and haematopoietic tissues. C/EBPalpha is highly expressed in these differentiated tissues where it controls differentiation-dependent gene expression and inhibits cell proliferation. Learning more about the precise molecular functions of the C/EBPalpha protein and how these are affected by leukaemogenic mutations should lead to an improved understanding of the cellular functions that are disrupted in patients with AML. Decreased expression of C/EBPalpha but not C/EBPalpha mutation has been shown in patients with granulocytic leukaemias that are associated with translocations t(8;21), inv (16) or t(15;17). Derived fusion proteins repress C/EBPalpha expression. Differentiation therapy of some AML types is based on restoring C/EBPalpha function. However, apparently normal C/EBPalpha is overexpressed in BCP-ALL harbouring the translocation t(14; 19)(q32; q13). C/EBPalpha may exhibit oncogenic as well as tumour suppressor properties in human leukaemogenesis. C/EBPalpha mutations were not found in non-haematopoietic cancers. DNA hypermethylation of the upstream C/EBPalpha promoter region is responsible for very low C/EBPalpha expression in human lung and endometrial cancer. C/EBPalpha expression may be a biomarker for early detection of these cancers and DNA-modifying drugs such as demethylating agents and/or histone deacetylase inhibitors could be used in the treatment of these malignancies.
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PMID:Growth-inhibiting activity of transcription factor C/EBPalpha, its role in haematopoiesis and its tumour suppressor or oncogenic properties in leukaemias. 1758

Leukaemia is the prevailing neoplastic disorder of the hematopoietic system. Epidemiological analyses of the survivors of the Japanese atomic bombings show that exposure to ionising radiation (IR) can cause leukaemia. Although a clear association between radiation exposure and leukaemia development is acknowledged, the underlying mechanisms remain incompletely understood. A hemizygous deletion on mouse chromosome 2 (del2) is a common feature in several mouse strains susceptible to radiation-induced acute myeloid leukaemia (rAML). The deletion is an early event detectable 24h after exposure in bone marrow cells. Ultimately, 15-25% of exposed animals develop AML with 80-90% of cases carrying del2. Molecular mapping of leukaemic cell genomes identified a minimal deleted region (MDR) on chromosome 2 (chr2) in which a tumour suppressor gene, Sfpi1 is located, encoding the transcription factor PU.1, essential in haematopoiesis. The remaining copy of Sfpi1 has a point mutation in the coding sequence for the DNA-binding domain of the protein in 70% of rAML, which alters a single CpG sequence in the codon for arginine residue R235. In order to identify chr2 deletions and Sfpi.1/PU.1 loss, we performed array comparative genomic hybridization (aCGH) on a unique panel of 79rAMLs. Using a custom made CGH array specifically designed for mouse chr2, we analysed at unprecedentedly high resolution (1.4M array- 148bp resolution) the size of the MDR in low LET and high-LET induced rAMLs (32 X-ray- and 47 neutron-induced). Sequencing of Sfpi1/PU.1DNA binding domain identified the presence of R235 point mutations, showing no influence of radiation quality on R235 type or frequency. We identified for the first time rAML cases with complex del2 in a subset of neutron-induced AMLs. This study allowed us to re-define the MDR to a much smaller 5.5Mb region (still including Sfpi1/PU.1), identical regardless of radiation quality.
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PMID:Influence of radiation quality on mouse chromosome 2 deletions in radiation-induced acute myeloid leukaemia. 2652 Mar 72