UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To study the structural integrity of the cyclin-dependent kinase inhibitors known as INK4A (p16), INK4B (p15) and INK4C (p18) in multiple myeloma, we examined 20 primary myeloma samples (including one case of plasma cell leukaemia) using polymerase chain reaction-single strand conformation polymorphism, and 17 samples were examined by Southern blot analysis. The plasma cell leukaemia sample had homozygous deletions of the p15 and p16 genes (6%). One myeloma case had a p15 gene homozygous deletion (6%) with an intact p16 gene. This sample also had a p18 homozygous deletion, suggesting that the deletion of both genes may be important in either the development or progression of myeloma. No point mutations of these INK4 genes were found in the 20 samples. This is the first report that indicates that deletions of p15, p16 and p18 genes occur in some individuals with multiple myeloma (2/17 cases).
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PMID:Analysis of the p16INK4A, p15INK4B and p18INK4C genes in multiple myeloma. 901 94

The p16 gene (MTS1, CDKN2, p16INK4A, CDKI) encoding an inhibitor of cyclin-dependent kinase 4 (cdk4) has been found to be deleted in various types of tumors, including leukemia, and is thought to code for a tumor suppressor gene. Our preliminary findings on eight pediatric patients with acute lymphoblastic leukemia (ALL) suggested that the survival of patients carrying a homozygous p16 gene deletion was significantly inferior to that of those without a deletion. The present study on 48 patients tested the hypothesis that the clinical outcome for pediatric ALL patients is correlated with the presence or absence of the p16 gene. Overall, nine of 48 children (18.3%) carried a homozygous p16 deletion. Such deletions were significantly more common (P = .003) among T-ALL patients (five of eight, 62.5%) than among precursor-B-ALL patients (four of 40, 10.0%). Of nine patients exhibiting p16 deletions, eight (88.9%) were classified as high-risk patients by the recognized prognostic factors of age, white blood cell count, and T-cell phenotype. The 4-year event-free survival in the study population as a whole was 72.7%. Without adjustment for other risk factors (univariate model), the presence of a homozygous p16 deletion was associated with a markedly increased probability of both relapse (P = .0003) and death (P = .002). These findings raise the question of whether the p16 deletion itself confers an increased risk of relapse after adjusting for the known risk factors. In this analysis, the estimated risk multiplier factor for relapse in patients carrying the p16 deletion was 14.0 (P = .0004) and for the risk of death 15.6 (P = .0008). We therefore conclude that the presence of a homozygous p16 deletion may well be an important risk factor for both relapse and death in childhood ALL, and that its prognostic effect is not a consequence of confounding by other factors already known to influence outcome in this disease.
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PMID:Homozygous deletion of the p16/MTS1 gene in pediatric acute lymphoblastic leukemia is associated with unfavorable clinical outcome. 916 59

In order to clarify the significance of p16 gene (CDKN2) inactivation and its disease specificity among hematopoietic tumors, configurations of the p16 gene as well as those of the adjacent p15 and interferon alpha (IFN alpha) genes were examined in primary hematopoietic tumors. Loss of the p16 gene is frequent in and highly specific to lymphoid tumors among hematopoietic tumors. Gene deletions but not minute mutations should be the predominant mechanism of p16 gene inactivation in these types of tumors. The p16 gene is most frequently deleted among the p16, p15 and IFN alpha genes and thus should be the target of deletions in this locus. Deletions of the p16 gene were frequently observed in tumors carrying chromosome 9p abnormalities while a significant number of cases showed loss of the p16 gene without chromosome 9p abnormalities. So far inactivation of p53 and Rb tumor suppressors have also been found in lymphoid tumors. In our study, we detected homozygous deletions of p16 gene in 20%, loss of Rb protein in 28%, and p53 gene alterations in 8% of lymphoid tumors. Notably, 44% of lymphoid tumors showed inactivation of at least one of the three tumor suppressors, suggesting these tumor suppressors are important for lymphoid tumorigenesis. Inactivations of these tumor suppressors should independently occur in development of lymphoid tumors.
Leukemia 1997 Apr
PMID:Recent progress in molecular mechanisms of leukemogenesis: the cyclin-dependent kinase 4-inhibitor gene in human leukemias. 920 89

Microsatellite instability (MSI) has been considered to represent the defect of DNA mismatch repair systems and has been implicated in the tumourigenesis of several human malignancies. To investigate the possible presence of microsatellite instability in childhood acute lymphoblastic leukaemia (ALL), we examined 48 primary ALL samples. Instability was determined at 85 different microsatellite loci localized to 12 different chromosome arms. Microsatellite instability was detected in five (10%) samples. Interestingly, the instability was found at chromosomal regions associated with frequent alterations. Two samples had instability at the microsatellite marker within the TEL gene on chromosome arm 12p. Two other samples had instability at a microsatellite marker close to CDKN2/p16 on 9p; one of these samples had a homozygous deletion at 9p21. The fifth sample had instability at the microsatellite marker on 6q, which we have found is a frequent region of loss of heterozygosity in childhood ALL. Taken together, instability was rare in childhood ALL, but was localized to the three most frequently deleted chromosome regions in childhood ALL, suggesting that localized microsatellite instability may identify a fragile chromosomal region which could result in alteration of surrounding target genes and lead to leukaemia.
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PMID:Microsatellite instability and other molecular abnormalities in childhood acute lymphoblastic leukaemia. 923 76

Deletion of the short arm of chromosome 9 (9p), resulting in the loss of the p16INK4a/MTS1 gene, now called CDKN2, has been found to occur frequently in acute lymphoblastic leukemia, even in the absence of a microscopically visible deletion. In this study, we have used YAC probes encompassing the CDKN2 locus to analyze by fluorescence in situ hybridization patients with leukemia and lymphoma and translocations involving 9p in order to establish the CDKN2 status in relation to the karyotype. We found that, in leukemic cells exhibiting loss of heterozygosity at the CDKN2 locus, the deleted allele was from the cytogenetically normal chromosome 9, whereas the other allele was located on a rearranged chromosome. This finding suggests that CDKN2 gene loss is nonrandomly associated with 9p translocation in lymphoid proliferations. Genes Chromosom.
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PMID:FISH analysis of translocations involving the short arm of chromosome 9 in lymphoid malignancies. 925 63

To gain a fuller understanding of the role of deletions of chromosome 9 in the development of childhood acute lymphoblastic leukemia (ALL), we performed detailed deletional mapping of chromosome 9 in 54 primary ALL samples with matched normal DNA using 22 highly polymorphic markers; and this information was combined with our previous data concerning the presence of deletions of CDKN2/INK4A/p16 and CDKN2B/INK4B/p15 in these samples. We have found a very high frequency of loss of heterozygosity (LOH) (31 of 54 cases (57%)) on chromosome arm 9p. As expected, the smallest region of LOH was between D9S1747 and D9S1748 at 9p21, including CDKN2/INK4A/p16, but excluding CDKN2B/INK4B/p15. Homozygous deletions at 9p21 occurred in 23 of 54 (43%) samples (seven of 11 (64%) T-ALL, 16 of 45 (36%) precursor-B ALL). We detected seven cases of homozygous deletions at 9p21 which had not been detected by Southern blot hybridization, showing the power of microsatellite analysis in detecting homozygous deletions. In most cases, homozygous deletions were limited to the region between D9S1747 and CDKN2B/INK4B/p15. We have attempted to determine the mechanism and timing of 9p deletions. Of the 23 samples with homozygous deletions at 9p21, 21 samples had surrounding large LOH. Of the 29 samples with LOH of 9p, homozygous deletion at 9p21 was identified in 22 cases. In addition, six patients have been studied at diagnosis and relapse, all six showed the same 9p21 structure at relapse (normal, three patients; hemizygous deletions, two patients; homozygous deletion, one patient) as their initial presentation. Finally, three patients (homozygous deletion, one patient; hemizygous deletion, two patients) had the IFN-alpha rather than CDKN2/INK4A/p16 deleted. In summary, these data further emphasize the importance of 9p21 loss in the development of childhood ALL.
Leukemia 1997 Oct
PMID:Homozygous deletions at 9p21 in childhood acute lymphoblastic leukemia detected by microsatellite analysis. 932 82

We observed the expression of wild-type retinoblastoma protein (RB) in all 17 hematologic cultured cell lines tested. However, no p16INK4 expression was detected in any cell line among 16 leukemia/lymphoma cell lines, although an EBV-transformed cell line expressed p16INK4. The expression levels of cyclin D1 and CDK4 varied widely among the cell lines. The correlation coefficient (r2) between doubling time (DT) and cyclin D1 in the 14 cell lines that doubled within 47.2 h was 0.4856, while the r2 between DT and cyclin dependent kinase 4 (CDK4) and that between DT and RB among those cell lines were 0.3761 and 0.0874, respectively. The levels of protein expression in vincristine (VCR)-resistant cell lines was not different from those in corresponding wild-type cell lines. Thus, we concluded that the loss of p16INK4 protein and inactivation of RB protein could be an essential step for oncogenesis of leukemia/ lymphoma, and that cyclin D1 may possibly be a target protein to control cell growth of hematologic cell lines which lack the expression of p16INK4.
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PMID:Expression level of G1-cyclins and cell proliferation in human cultured leukemia/lymphoma cell lines. 949 44

Human T-cell leukemia virus type 1 is etiologically linked to the development of adult T-cell leukemia and various human neuropathies. The Tax protein of human T-cell leukemia virus type I has been implicated in cellular transformation. Like other oncoproteins, such as Myc, Jun, and Fos, Tax is a transcriptional activator. How it mechanistically dysregulates the cell cycle is unclear. Previously, it was suggested that Tax affects cell-phase transition by forming a direct protein-protein complex with p16(INK4a), thereby inactivating an inhibitor of G1-to-S-phase progression. Here we show that, in T cells deleted for p16(INK4a), Tax can compel an egress of cells from G0/G1 into S despite the absence of serum. We also show that in undifferentiated myocytes, expression of Tax represses cellular differentiation. In both settings, Tax expression was found to increase cyclin D-cdk activity and to enhance pRb phosphorylation. In T cells, a Tax-associated increase in steady-state E2F2 protein was also documented. In searching for a molecular explanation for these observations, we found that Tax forms a protein-protein complex with cyclin D3, whereas a point-mutated and transcriptionally inert Tax mutant failed to form such a complex. Interestingly, expression of wild-type Tax protein in cells was also correlated with the induction of a novel hyperphosphorylated cyclin D3 protein. Taken together, these findings suggest that Tax might directly influence cyclin D-cdk activity and function, perhaps by a route independent of cdk inhibitors such as p16(INK4a).
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PMID:Human T-cell leukemia virus type 1 Tax and cell cycle progression: role of cyclin D-cdk and p110Rb. 958 3

To investigate the regulatory mechanism of the expression of the multidrug resistance gene (mdr-1) and the multidrug resistance-associated protein gene (mrp), we investigated if p53, WT1, RB, C-myc, N-myc, cyclin D1, p16INK4 (p16) are involved in the acquirement of multidrug resistance phenotype (MDR) in human vincristine (VCR)-resistant cells of leukemia/lymphoma cell lines. By using RT-PCR, we observed that MDR in VCR-resistant cell lines was mediated by either mdr-1 or mrp genes. In cells that acquired the overexpression of mdr-1, downregulation of p53 and upregulation of WT-1 were observed. In contrast, no constant change of genes was observed in cells that overexpressed mrp. Although the change in the expression level of cyclin D1 and p-16 accompanied the development of VCR resistance, the mRNA of RB, C-myc and N-myc showed no correlation with the degree of VCR resistance or the level of mdr-1 expression. These results may provide a plausible diagnostic marker for determination of drug sensitivity in cancer patients and suggest that p53 may mediate directly or indirectly the expression of mdr-1 via WT1 in VCR-resistant hematologic cell lines.
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PMID:p53 may mediate the mdr-1 expression via the WT1 gene in human vincristine-resistant leukemia/lymphoma cell lines. 971 58

Tax protein of human T-cell leukemia virus type 1 (HTLV-1) is a potent trans-activator of specific sets of target genes, and on the other hand, it is a trans-repressor of other sets of genes. It is also an inhibitor of the tumor suppressor protein p16(INK4a) and thus has been thought to contribute to induction of adult T-cell leukemia (ATL). We examined the mutagenic effects of Tax on a cellular gene, hypoxanthine guanine phosphoribosyltransferase (hprt), and LacI gene in lambda shuttle vector exogenously integrated in Big Blue Rat-2 (BBRat-2) cells. Expression of Tax in BBRat-2 cells enhanced the frequency of HPRT(-) phenotype severalfold. Tax-expressing cell clones, BBTax-1 and -2 established from BBRat-2 cells, gave rise to an average mutation frequency of 5.9 x 10(-5) in LacI gene, but Tax-negative cell clones, BBRat-C1 and -C2, showed 2. 1 x 10(-5). The 2.8-fold increase in mutation frequency in the presence of Tax indicates that Tax expression enhanced mutation frequency in chromosomal DNA. However, neither the mutation spectrum of base transitions, transversions, and deletions/insertions nor the loci of the mutations were significantly affected by Tax expression. These findings indicate that Tax has the capability to induce random mutations and suggest that Tax would be able to modulate cellular phenotypes through mutation of the cellular genome.
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PMID:Trans-activator Tax of human T-cell leukemia virus type 1 enhances mutation frequency of the cellular genome. 991 74

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