Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0026986 (myelodysplastic syndrome)
 14,926 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

DNA methylation abnormalities have recently emerged as one of the most frequent molecular changes in hematopoietic neoplasms. Since methylation and transcriptional status are inversely correlated, the hypermethylation of genes involved in cell-cycle control and apoptosis could have a pathogenetic role in the development of cancer. In particular, high-risk myelodysplastic syndromes (MDS) and secondary leukemias show a high prevalence of tumor suppressor gene hypermethylation. The progression of chronic myeloproliferative diseases and of myelodysplastic syndromes, as well as that of lymphoproliferative diseases, is associated with an increased methylation rate, pointing to a role for hypermethylation of critical promoter regions in the transformation to more aggressive phenotypes. In the same line, a significantly worse prognosis has been shown for patients with hypermethylation of several genes compared to that of patients with unmethylated genes. For these reasons, the use of irreversible DNA methyltransferase inhibitors, such as 5-azacytidine and Decitabine, appears to be a promising option for the treatment of MDS and acute myeloid leukemia. In clinical trials, Azacytidine results in a significantly higher response rate, improved quality of life, reduced risk of leukemic transformation, and improved survival compared to supportive care. Similarly, Decitabine showed favorable results, promising response rates, a good nonhematologic toxicity profile, and a trend for better survival compared to intensive chemotherapy, particularly in older patients. The synergistic effect of histone deacetylase inhibitors, including phenylbutyrate (PB), in reactivating silenced genes encouraged clinical studies on the combination of PB and demethylating agents in hematological diseases, characterized by p15 silencing. The sequential administration of a "first generation" demethylating agent and HDAC inhibitors gave preliminary evidence of a reduced methylation of target genes, as also described with Decitabine. Clinical trials are still ongoing, and preliminary data indicate for the first time that the natural history of MDS may be changed by a non-intensive treatment, characterized by an outstanding toxicity profile.
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PMID:Inhibitors of DNA methylation in the treatment of hematological malignancies and MDS. 1458 80

On May 19, 2004, azacitidine (5-azacytidine; Vidaza(trade mark); Pharmion Corporation, Boulder, CO, http://www.pharmion.com) for injectable suspension received regular approval by the U.S. Food and Drug Administration (FDA) for the treatment of all subtypes of myelodysplastic syndrome (MDS). This report summarizes the basis for this approval. Effectiveness was demonstrated in one randomized, controlled trial comparing azacitidine administered s.c. with best supportive care (observation group) and in two single-arm studies, one in which azacitidine was administered s.c. and in the other in which it was administered i.v. The dose of azacitidine, 75 mg/m2/day for 7 days every 28 days, was the same in all three studies. In the randomized trial, study participants were well matched with respect to age, sex, race, performance status, MDS subtype, and use of transfusion during the 3 months before study entry. Patients in the observation arm were permitted by protocol to cross over to azacitidine treatment if their disease progressed according to prespecified criteria. During the course of the study, more than half of the patients in the observation arm did cross over to the azacitidine treatment arm. The primary efficacy end point was the overall response rate. Response consisted of complete or partial normalization of blood cell counts and of bone marrow morphology. The response rate in the azacitidine arm was about 16%; there were no responses in the observation arm. The response rates in the two single-arm studies were similar (13% and 19%). The responses were sustained, with median durations of 11 months and 17 months respectively. Responding patients who were transfusion dependent at study entry lost the need for transfusions. In addition, about 19% of patients had less than partial responses (termed improvement), and two-thirds of them became transfusion independent. Common adverse events associated with azacitidine treatment were gastrointestinal (nausea, vomiting, diarrhea, constipation, and anorexia), hematologic (neutropenia, thrombocytopenia), fevers, rigors, ecchymoses, petechiae, injection site events, arthralgia, headache, and dizziness. Liver function abnormalities occurred in 16% of patients with intercurrent hepatobiliary disorders and in two patients with previously diagnosed liver cirrhosis. Renal failure occurred in patients during sepsis and hypotension. There were no deaths attributed to azacitidine. Azacitidine, the first drug approved by the U.S. FDA for MDS, has a favorable safety profile and provides a clinical benefit of eliminating transfusion dependence and complete or partial normalization of blood counts and bone marrow blast percentages in responding patients.
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PMID:FDA drug approval summary: azacitidine (5-azacytidine, Vidaza) for injectable suspension. 1579 20

Azacitidine (Vidaza; Pharmion), an inhibitor of DNA methylation, was approved by the US FDA for the treatment of myelodysplastic syndromes in May 2004. It is the first drug to be approved by the FDA for treating this rare family of bone-marrow disorders, and has been given orphan-drug status. It is also a pioneering example of an agent that targets 'epigenetic' gene silencing, a mechanism that is exploited by cancer cells to inhibit the expression of genes that counteract the malignant phenotype.
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PMID:Azacitidine. 1596 22

Azanucleoside drugs such as 5-azacytidine (Vidaza) and 5-aza-2'-deoxycytidine (decitabine, Dacogen) function as DNA methyltransferase inhibitors in vitro and represent promising new drugs for the treatment of myelodysplastic syndrome (MDS) and acute myeloid leukemia. In this study, we aimed to determine the effect of decitabine on the genomic methylation level in MDS patients. Comparison of different assays established micellar electrokinetic chromatography as a reliable method for the analysis of genomic methylation levels. When used for the determination of DNA methylation levels in bone marrow DNA from MDS patients during various time points of decitabine treatment, the results revealed a significant (up to 70%) demethylation in five of seven patients. Interestingly, genome-wide demethylation appeared after karyotype normalization, which suggests demethylation of nonclonal cells. Drug-induced demethylation dynamics were also confirmed by bisulfite sequencing of pericentromeric satellite elements. Our results are the first to show a genome-wide demethylating activity of decitabine in tumor material. In addition, our data uncovers novel targets of decitabine-mediated demethylation that are important for the refinement of treatment schedules with demethylating drugs.
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PMID:Characterization of DNA demethylation effects induced by 5-Aza-2'-deoxycytidine in patients with myelodysplastic syndrome. 1610 56

Myelodysplastic syndrome (MDS) is a group of clonal hematopoietic stem cell disorders characterized by ineffective hematopoiesis, leading to bone marrow failure and peripheral blood cytopenias. MDS is difficult to diagnose because of the absence of symptoms in the early stage of the disease; it often is discovered accidentally during routine physical examinations or blood tests. The U.S. Food and Drug Administration approved azacitidine (Vidaza, Pharmion Corporation, Boulder, CO) for the treatment of MDS. Prior to the approval of azacitidine, no approved therapies were available for the treatment of MDS. Azacitidine is believed to exert its anticancer effects by induction of hypomethylation and cytotoxicity. In clinical studies, the most common adverse events during treatment with azacitidine included nausea, anemia, thrombocytopenia, vomiting, pyrexia, leukopenia, diarrhea, fatigue, injection-site erythema, constipation, neutropenia, and ecchymosis. To ensure proper treatment with azacitidine, nurses should have an understanding of dosage and administration guidelines, commonly observed adverse events, monitoring and care of adverse events, and monitoring of laboratory tests. Having a comprehensive understanding of MDS, its underlying disease characteristics, and current treatments will enable oncology nurses to provide optimal patient care.
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PMID:Advances in myelodysplastic syndrome: nursing implications of azacitidine. 1611 8

Recent evidence demonstrates that epigenetic silencing of genes is associated with myelodysplasia and that a worse prognosis may be correlated with hypermethylation of certain genes, such as the cyclin-dependent kinase inhibitor p15. 5-Aza-2'-deoxycytidine (decitabine, DAC) is a nucleoside analog, which, at low doses, acts as a hypomethylating agent and is fivefold to tenfold more active than 5-azacytidine (azacitidine, Vidaza)--currently the only approved drug for treatment of myelodysplastic syndrome (MDS). Clinical studies have demonstrated that decitabine has activity in patients with MDS. Preliminary results of a phase III multicenter North American trial comparing low-dose decitabine to supportive care verified that therapy with decitabine resulted in higher response rates, improved quality of life, and prolonged time to leukemic transformation and/or death. However, further elucidation of its mechanism of action is required, as clinical response to decitabine does not correlate with demethylation of the p15 gene promoter or the repetitive DNA element LINE. Decitabine appears to upregulate both hypermethylated and nonmethylated genes. Ongoing studies aim to determine the optimal dose, schedule, and route of administration of decitabine, and to evaluate whether efficacy can be improved by using it in combination with other agents, such as histone deacetylase inhibitors.
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PMID:Clinical experience with decitabine in North American patients with myelodysplastic syndrome. 1627 8

Low-dose demethylating agents such as 5-aza-2'-deoxycytidine (decitabine, DAC) and 5-azacytidine (azacitidine, Vidaza) have been explored for the treatment of myelodysplasia, acute myeloid leukemia, and hemoglobinopathies since the early 1980s, aiming to revert a methylator phenotype. Originally, the treatment rationale in hemoglobinopathies was to achieve demethylation of the hypermethylated and hence silent gamma-globin gene locus, thus reactivating synthesis of hemoglobin F (HbF). In myelodysplastic syndrome (MDS), cytogenetic analyses are mandatory for risk stratification and for monitoring response to drug treatment. The current knowledge regarding cytogenetic subgroups as predictors of response to low-dose decitabine in MDS as well as cytogenetic responses caused by demethylating agents is summarized in this review. Decitabine treatment is associated with a response rate that is higher in patients with high-risk cytogenetics (i.e., complex karyotype and/or abnormalities of chromosome 7) than in patients with intermediate-risk cytogenetics (two abnormalities or single abnormalities excluding 5q-, 20q-, and -Y). Following decitabine treatment of patients with abnormal karyotype, approximately one-third achieve a major cytogenetic response that can be confirmed by FISH analyses, while in two-thirds of patients, the abnormal karyotype persists but hematologic improvement may be observed during continued treatment. The most frequently studied gene in myelodysplasia is the cell cycle regulator p15(INK4b). Hypermethylation of p15(INK4b) in MDS is reversed during treatment with decitabine, resulting in reactivation of this gene. In hemoglobinopathies, treatment with demethylating agents leads to reactivation of fetal HbF (the gamma-globin gene locus also possibly being another target for reactivation in MDS), and thus, HbF may potentially act as surrogate marker for activity of decitabine. Other, thus far unidentified hypermethylated genes may also be targets for demethylating agents.
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PMID:In vivo effects of decitabine in myelodysplasia and acute myeloid leukemia: review of cytogenetic and molecular studies. 1629 49

Azacitidine (Vidaza, Pharmion Corp., Boulder, CO, USA) and decitabine (Dacogentrade mark, SuperGen, Inc., Dublin, CA, USA, and MGI Pharma, Inc., Bloomington, MN, USA) are DNA methyltransferase (DNMT) inhibitors that have clinical activity in patients with myelodysplastic syndromes. Mechanism-based laboratory studies suggest that clinical optimization of therapy with DNMT inhibitors needs to include optimizing intracellular drug uptake and maximizing drug exposure over time while still using lower doses to avoid cytotoxicity. Clinical studies suggest that increased dose intensity and multiple cycles of administration substantially increase response rates. Other strategies for optimizing the efficacy of DNMT inhibitor therapy also include identification of patients that are best qualified for treatment, and defining in vivo mechanisms of patient responses. In the future, combination strategies to increase gene reactivation and to take advantage of increased expression of target genes may be critical for achieving optimal results.
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PMID:Optimizing therapy with methylation inhibitors in myelodysplastic syndromes: dose, duration, and patient selection. 1634 Dec 37

DNA methyltransferase (DNMT) inhibitors, azacitidine (Vidaza, Pharmion, Boulder, CO, USA) and decitabine (Dacogen; SuperGen Inc, Dublin, CA, USA, and MGI Pharma Inc, Bloomington, MN, USA), have had a significant impact on the treatment paradigm of myelodysplastic syndromes (MDSs), previously managed mainly by supportive care and hematopoietic-stem-cell transplantation. The positive clinical experience seen in MDS to date coupled with the persistent challenges faced in the treatment of other hematologic malignancies has served as the impetus for further exploration of the therapeutic value of DNMT inhibitors beyond MDS. In that respect, the majority of data for these agents are in the setting of acute myelogenous leukemia (AML). Experience with these agents in patients with refractory anemia with excess blasts in transformation (reclassified by the World Health Organization as AML) was also reported in the clinical trials submitted to the FDA for approval of azacitidine for MDS. Some use has also been described in chronic myelogenous leukemia and acute lymphocytic leukemia. Further studies are needed to clarify the appropriate dose and the number and duration of cycles in the treatment of leukemias, and to identify ideal candidates for therapy, explore the role of DNMT inhibitors in combination with other agents, especially histone deacetylase inhibitors, delineate differences between the commercially available agents, and establish the long-term safety of these agents. To this end, experience with DNMT inhibitors in hematologic malignancies other than MDS is reviewed in an effort to better understand the therapeutic potential of these agents and to define areas of future exploration in these settings.
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PMID:Inhibitors of DNA methylation: beyond myelodysplastic syndromes. 1634 Dec 39

Differential methylation of CpG islands is a regulatory mechanism for promoter activity of different classes of genes, including tissue-specific genes. These CpG islands are targets for transformation-associated, aberrant hypermethylation activity during leukemogenesis. Therefore the pharmacological reversion of this methylator phenotype (e.g. by reactivation of tumor suppressor gene expression) is an important rationale for development of inhibitors of DNA methyltransferase activity. In vitro, inhibition of methylation using azanucleosides results in modest differentiation of transformed myeloid cell lines. In vivo, low doses of these agents induce DNA demethylation of malignant myeloid cells. Indeed, the first drug specifically approved for the treatment of myelodysplastic syndrome (MDS) was the azanucleoside 5-azacytidine (Vidaza). The most potent DNA demethylating agent available, 5-aza-2' deoxycytidine (Decitabine, Dacogen) also has recently been approved by the U.S.A. FDA for treatment of MDS of all subtypes. About 30 % of MDS patients with an abnormal karyotype have normalization of their karyotype after receiving the drug. This activity is especially relevant in patients with high-risk karyotypic abnormalities (complex karyotype and/or abnormalities of chromosome 7) compared to patients with intermediate-risk karyotype. Both drugs offer a novel, non-intensive therapeutic approach, particularly in the older patient population who due to comorbidities and/or reduced performance status are ineligible for aggressive chemotherapies. Target genes being particularly prone to demethylation by these drugs in the aberrant cells (e.g. p15/INK4b) are under active investigation. Future translational and clinical studies will be aimed at improving the response rate and duration of response to non-intensive treatment with demethylating agents, by studying rational drug combinations e.g. with inhibitors of histone deacetylase activity.
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PMID:DNA hypermethylation of myeloid cells, a novel therapeutic target in MDS and AML. 1707 47


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