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)

A variety of tumor suppressor genes are down-regulated by hypermethylation during carcinogenesis. Using methylated CpG amplification-representation difference analysis, we identified a DNA fragment corresponding to the Tazarotene-induced gene 1 (TIG1) promoter-associated CpG island as one of the genes hypermethylated in the leukemia cell line K562. Because TIG1 has been proposed to act as a tumor suppressor, we tested the hypothesis that cytosine methylation of the TIG1 promoter suppresses its expression and causes a loss of responsiveness to retinoic acid in some neoplastic cells. We examined TIG1 methylation and expression status in 53 human cancer cell lines and 74 primary tumors, including leukemia and head and neck, breast, colon, skin, brain, lung, and prostate cancer. Loss of TIG1 expression was strongly associated with TIG1 promoter hypermethylation (P < 0.001). There was no correlation between TIG1 promoter methylation and that of retinoid acid receptor beta2 (RARbeta2), another retinoic-induced putative tumor suppressor gene (P = 0.78). Treatment with the DNA methyltransferase inhibitor 5-aza-2'-deoxycytidine for 5 days restored TIG1 expression in all eight silenced cell lines tested. TIG1 expression was also inducible by treatment with 1 micro M all-trans-retinoic acid for 3 days except in densely methylated cell lines. Treatment of the K562 leukemia cells with demethylating agent combined with all-trans-retinoic acid induced apoptosis. These findings indicate that silencing of TIG1 promoter by hypermethylation is common in human cancers and may contribute to the loss of retinoic acid responsiveness in some neoplastic cells.
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PMID:Hypermethylation and silencing of the putative tumor suppressor Tazarotene-induced gene 1 in human cancers. 1505 93

Previous studies showed that progesterone receptor (PR), one of the hormone receptor superfamily, was only connected with the sex-correlated cancers such as breast cancer, endometrial cancer, prostate cancer, etc. This article deals with the PR gene in leukemia. We investigated the methylation status and the expression of the two different PR isoforms, PRA and PRB, in three leukemia cancer cell lines using methylation-specific polymerase chain reaction (MSP-PCR) and reverse transcription-PCR. The correlation of PR methylation and expression together with DNA methyltransferase (DNMT1) was further studied. We found that DNMT1 is required to maintain CpG methylation and aberrant gene silencing of PR gene in human leukemia cancer cells. The activity of 5-aza-2'-deoxycytidine in demethylation and gene reactivation may be through depleting cellular DNMT1 levels. In addition, extensive methylation of PRA and PRB was also observed in leukemia samples. Our results suggest that PR CpG island aberrant hypermethylation could be one molecular and genetic alteration in leukemia.
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PMID:Progesterone receptor gene inactivation and CpG island hypermethylation in human leukemia cancer cells. 1517 46

Myelodysplastic syndrome (MDS) is an acquired bone marrow disorder characterized by ineffective hematopoiesis and cellular dysfunction and has an increased risk of transforming into acute myeloid leukemia. Most patients are of advanced age with attendant comorbidities, making treatment difficult. Current treatment options have included supportive care and, in difficult cases, chemotherapy regimens designed for acute leukemia patients. A major effort has been made to determine the role of stem cell transplantation in adult MDS patients, currently the only curative option available for them. Based on relapse rates, studies indicate that allogeneic and autologous transplants provide better antileukemic activity than intensive chemotherapy schedules. Use of DNA methyltransferase inhibitors may assist in managing MDS patients while awaiting a transplant match, but the procedural mortality for transplant remains high. Reduced conditioning or nonmyeloablative conditioning, particularly in the elderly, has been attempted with some success. Reduced conditioning also increases the graft-versus-leukemia effect, allowing for a higher percentage of disease-free survival. Current use of peripheral blood as a source of stem cells for autotransplant is associated with an extremely low procedural mortality. Improvement in such transplant procedures as myeloablation, preparation of the autograft, and posttransplant prophylaxis are improving recovery rates for these patients. In addition, as the biology of this disease is being revealed, newer options will become available in the near future.
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PMID:Transplant strategies for myelodysplastic syndrome. 1549 94

Acute myeloid leukemia (AML) is not a single disease but a group of malignancies in which the clonal expansion of various types of hematopoietic precursor cells in the bone marrow leads to perturbation of the delicate balance between self-renewal and differentiation that is characteristic of normal hematopoiesis. An increasing number of genetic aberrations, such as chromosomal translocations that alter the function of transcription regulatory factors, has been identified as the cause of AML and shown to act by deregulating gene programming at both the genetic and epigenetic level. While the genetic aberrations occurring in acute myeloid leukemia are fairly well understood, we have only recently become aware of the epigenetic deregulation associated with leukemia, in particular with myeloid leukemias. The deposition of epigenetic "marks" on chromatin - post-translational modifications of nucleosomal proteins and methylation of particular DNA sequences - is accomplished by enzymes, which are often embedded in multi-subunit "machineries" that have acquired aberrant functionalities during leukemogenesis. These enzymes are targets for so-called "epi-drugs". Indeed, recent results indicate that epi-drugs may constitute an entirely novel type of anti-cancer drugs with unanticipated potential. Proof-of-principle comes from studies with histone deacetylase inhibitors, promising novel anti-cancer drugs. In this review we focus on the epigenetic mechanisms associated with acute myeloid leukemogenesis and discuss the therapeutic potential of epigenetic modulators such as histone deacetylase and DNA methyltransferase inhibitors.
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PMID:Acute myeloid leukemia: therapeutic impact of epigenetic drugs. 1596 34

Apaf-1 is important for tumor suppression and drug resistance because it plays a central role in DNA damage-induced apoptosis. Inactivation of the Apaf-1 gene is implicated in disease progression and chemoresistance of some malignancies. In this study, we attempted to clarify the role of Apaf-1 in leukemogenesis. Apaf-1 mRNA levels were below the detection limit or very low in 5 of 20 human leukemia cell lines (25%) and 5 of 12 primary acute myeloblastic leukemia cells (42%). There were no gross structural abnormalities in the Apaf-1 gene in these samples. Expression of factors regulating Apaf-1 transcription, such as E2F-1, p53, and Sp-1, did not differ between Apaf-1-positive and Apaf-1-negative cells. Methylation of CpG in the region between +87 and +128 of the Apaf-1 gene was almost exclusively observed in Apaf-1-defective cell lines. Treatment of these cells with 5-aza-2'-deoxycytidine, a specific inhibitor of DNA methylation, restored the expression of Apaf-1. Furthermore, we showed that the region between +87 and +128 could act as a repressor element by recruiting corepressors such as methylated DNA-binding domain 2 and histone deacetylase 1 upon methylation. Overexpression of Dnmt1, a mammalian maintenance DNA methyltransferase, was associated with Apaf-1 gene methylation. DNAs from Dnmt1-overexpressing cells were more resistant to digestion with methylation-sensitive enzyme HpaII than those from cells with low Dnmt1 expression, suggesting that Dnmt1 mediates aberrant methylation of multiple genes. In conclusion, methylation silencing is a mechanism of the inactivation of Apaf-1 in acute leukemia, and Dnmt1 overexpression may underlie hypermethylation of the Apaf-1 gene.
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PMID:Methylation silencing of the Apaf-1 gene in acute leukemia. 1597 51

Decitabine, a potent DNA methyltransferase inhibitor, which was originally under development by Pharmachemie, is being developed by SuperGen. Pharmachemie had been studying decitabine in phase II clinical trials for several leukemia indications in Europe and the US. Preliminary results indicated that the compound was active in the treatment of myelodysplasia, relapsed leukemia, acute myeloid leukemia and postallogeneic progenitor cell transplant relapse. The compound is in phase II clinical trials with phase III trials scheduled to begin shortly. Decitabine has been used to treat myelodysplastic syndrome in a total of 125 patients, with an overall response rate of 49%. In a study using decitabine to treat chronic myelogenous leukemia in 81 patients, a response rate of 62% among patients in chronic phase of the disease was achieved. In a phase I/II trial designed to establish safety and efficacy in the treatment of sickle cell anemias treatment with decitabine generated a response in 100% of the patients tested: a total of eight patients were enrolled, each experienced elevated levels of fetal hemoglobin. Side effects were minimal and the drug was well tolerated. Plans for additional clinical studies of decitabine as a treatment for sickle cell anemia are underway. A phase II trial using a low dose of decitabine in patients with myelodysplastic syndrome has been completed. Of 66 patients entered, 62 were evaluable. The response rate was 48%, with a median response duration of 40 weeks. The mean survival from the start of therapy was 13 months. In a study with 37 CML patients, a 25% overall response rate was seen in those patients in the blastic phase of the disease, and a 52% response rate was observed in the accelerated phase patients. The most significant side effect was prolonged myelosuppression. The drug suppresses cellular growth in seven human tumor cell lines, possibly by reactivation of certain growth suppressor genes.
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PMID:Decitabine (SuperGen). 1603 61

Epigenetic events, such as aberrant DNA methylation, have been demonstrated to silence the expression of many genes that suppress malignancy. Since the event is reversible, it is an interesting target for intervention with specific inhibitors of DNA methylation, such as 5-aza-2'-deoxycytidine (5-AZA-CdR, decitabine). 5-AZA-CdR is a prodrug that requires activation via phosphorylation by deoxcytidine kinase. The nucleotide analog is incorporated into DNA, where it produces an irreversible inactivation of DNA methyltransferase. 5-AZA-CdR is an S-phase-specific agent. The demethylation of DNA by this analog in neoplastic cells can lead to the reactivation of silent tumor-suppressor genes, induction of differentiation or senescence, growth inhibition, and loss of clonogenicity. 5-AZA-CdR was demonstrated to be a potent antineoplastic agent against leukemia and tumors in animal models. Preliminary clinical trials of 5-AZA-CdR using different dose-schedules have shown interesting antineoplastic activity in patients with leukemia, myelodysplastic syndrome (MDS), and non-small cell lung cancer (NSCLC). Pharmacokinetic studies have shown that 5-AZA-CdR has a short in vivo half-life of 15 to 25 minutes. The major toxicity produced by this analog is granulocytopenia. To exploit the full chemotherapeutic potential of 5-AZA-CdR for the treatment of cancer, its optimal dose-schedule has to be found. This will require a good understanding of the pharmacology of this analog and its action on both normal and neoplastic cells.
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PMID:Epigenetic therapy of cancer with 5-aza-2'-deoxycytidine (decitabine). 1621 84

Thymus, an important component of hematopoietic tissue, is a well-documented "target" of radiation carcinogenesis. Both acute and fractionated irradiation result in a high risk of leukemia and thymic lymphoma. However, the exact mechanisms underlying radiation-induced predisposition to leukemia and lymphoma are still unknown, and the contributions of genetic and epigenetic mechanisms in particular have yet to be defined. Global DNA hypomethylation is a well-known characteristic of cancer cells. Recent studies have also shown that tumor cells undergo prominent changes in histone methylation, particularly a substantial loss of trimethylation of histone H4-Lys20 and demethylation of genomic DNA. These losses are considered a universal marker of malignant transformation. In the present study, we investigated the effect of low-dose radiation exposure on the accumulation of DNA lesions and alterations of DNA methylation and histone H4-Lys20 trimethylation in the thymus tissue using an in vivo murine model. For the first time, we show that fractionated whole-body application of 0.5 Gy X-ray leads to decrease in histone H4-Lys20 trimethylation in the thymus. The loss of histone H4-Lys20 trimethylation was accompanied by a significant decrease in global DNA methylation as well as the accumulation of DNA damage as monitored by persistence of histone gammaH2AX foci in the thymus tissue of mice exposed to fractionated irradiation. Altered DNA methylation was associated with reduced expression of maintenance (DNMT1) and, to a lesser extent, de novo DNA methyltransferase DNMT3a in exposed animals. Expression of another de novo DNA methyltransferase DNMT3b was decreased only in males. Irradiation also resulted in approximately 20% reduction in the levels of methyl-binding proteins MeCP2 and MBD2. Our results show the involvement of epigenetic alterations in radiation-induced responses in vivo. These changes may play a role in genome destabilization that ultimately leads to cancer.
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PMID:Fractionated low-dose radiation exposure leads to accumulation of DNA damage and profound alterations in DNA and histone methylation in the murine thymus. 1625 89

The class of DNA methyltransferase inhibitors is represented by azacitidine and decitabine. Azacitidine is approved for the treatment of patients in both low- and high-risk subtypes of myelodysplastic syndrome (MDS), and decitabine is currently under review by the FDA. Azacitidine phase III trial data, based upon the Cancer and Leukemia Group B (CALGB) study 9221, showed durable clinical and symptomatic improvement in bone marrow function, a reduction in the risk of leukemic transformation, and significant improvements in the quality of life of patients treated with azacitidine compared with supportive care alone. This study also provided data suggestive of improvement in survival in MDS patients. The experience with decitabine comprises a number of phase I/II studies and a phase III trial yet to be published. While there is a strong base of experience supporting the efficacy of DNA methyltransferase inhibitors in the treatment of MDS, a number of practical issues need to be explored further. These include the optimization of the timing and duration of treatment, and the prediction of response to therapy. Along with current experience, future studies will lead to the development of treatment algorithms, strategies for selecting patients (e.g. according to age, risk, classification, and cytogenetic profile), and the combination strategies, particularly with histone deacetylase inhibitors, in the management of MDS.
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PMID:Methylation inhibitor therapy in the treatment of myelodysplastic syndrome. 1634 Dec 36

Here, we describe a role for mammalian DNA methyltransferases (DNMTs) in telomere length control. Mouse embryonic stem (ES) cells genetically deficient for DNMT1, or both DNMT3a and DNMT3b have dramatically elongated telomeres compared with wild-type controls. Mammalian telomere repeats (TTAGGG) lack the canonical CpG methylation site. However, we demonstrate that mouse subtelomeric regions are heavily methylated, and that this modification is decreased in DNMT-deficient cells. We show that other heterochromatic marks, such as histone 3 Lys 9 (H3K9) and histone 4 Lys 20 (H4K20) trimethylation, remain at both subtelomeric and telomeric regions in these cells. Lack of DNMTs also resulted in increased telomeric recombination as indicated by sister-chromatid exchanges involving telomeric sequences, and by the presence of 'alternative lengthening of telomeres' (ALT)-associated promyelocytic leukaemia (PML) bodies (APBs). This increased telomeric recombination may lead to telomere-length changes, although our results do not exclude a potential involvement of telomerase and telomere-binding proteins in the aberrant telomere elongation observed in DNMT-deficient cells. Together, these results demonstrate a previously unappreciated role for DNA methylation in maintaining telomere integrity.
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PMID:DNA methyltransferases control telomere length and telomere recombination in mammalian cells. 1656 8

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