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)

The 2008 WHO classification system for hematological malignancies is comprehensive and includes histology and genetic information. Myeloid neoplasms are now classified into five categories: acute myeloid leukemia, myelodysplastic syndromes (MDS), myeloproliferative neoplasms (MPN), MDS/MPN, and myeloid and/or lymphoid malignancies associated with eosinophilia and PDGFR or FGFR1 rearrangements. MPN are subclassified into eight separate entities: chronic myelogenous leukemia, polycythemia vera, essential thrombocythemia, primary myelofibrosis, systemic mastocytosis, chronic eosinophilic leukemia not otherwise specified, chronic neutrophilic leukemia, and unclassifiable MPN. The diagnosis of chronic myelogenous leukemia requires the presence of BCR-ABL1, while its absence is required for all other MPN. Additional MPN-associated molecular markers include mutations of JAK2, MPL, TET2 and KIT. JAK2 V617F is found in most patients with polycythemia vera, essential thrombocythemia, or primary myelofibrosis and is, therefore, useful as a clonal marker in those settings. The diagnostic utility of MPL and TET2 mutations is limited by low mutational frequency. In systemic mastocytosis, presence of KIT D816V is expected but not essential for diagnosis. Chronic eosinophilic leukemia not otherwise specified should be distinguished from both PDGFR-rearranged or FGFR1-rearranged neoplasms and hypereosinophilic syndrome. We discuss histologic, cytogenetic and molecular changes in MPN and illustrate their integration into practical diagnostic algorithms.
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PMID:Myeloproliferative neoplasms: contemporary diagnosis using histology and genetics. 1980 46

Myeloid leukemia in this series corresponds to the myeloid neoplasms of the 4th WHO classification of pathology and genetics of tumor of haematopoietic and lymphoid tissue. The myeloid neoplasms are composed of six categories, which are 1) myeloproliferative neoplasms (MPN), a new category of 2) myeloid and lymphoid neoplasms with eosinophilia and abnormalities of PDGFRA, PDGFRB or FGFR1, 3) myelodysplastic syndrome (MDS)/MPN, 4) MDS, 5) acute myeloid leukemia (AML) and related precursor neoplasms, and 6) acute leukemias of ambiguous lineage. In MPNs without chronic myelogenous leukemia, the genetic marker of JAK2 V617F is added to the diagnostic criteria for polycythemia vera, essential thrombocythemia and primary myelofibrosis. MDS has the new subtype of refractory cytopenia with unilineage dysplasia composed of refractory anemia, refractory neutropenia and refractory thrombocytopenia. AML with t(9; 11) (p22;q23); MLLT3-MLL, AML with t(6;9) (p23; q34); DEK-NUP214, AML with inv(3) (q21q26.2) or t(3; 3) (q21 ; q26.2); RPN1-EVI1 and AML (megakaryoblastic) with t(1; 22) (p13; q13); RBM15-MKL1 are added to the subtype of AML with recurrent genetic abnormalities, and AML with gene mutations of NPM1 and CEBPA are also added as provisional entities of it. The myeloid neoplasms of the 4th WHO classification are comprehensive and seem to be dynamic by incorporating the results of leukemia researches.
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PMID:[Classification of myeloid leukemias]. 1986 Jan 79

Chromosome 1 is the largest human chromosome and contains over 1600 known genes and 1000 novel coding sequences or transcripts. It is, therefore, not surprising that recurrent chromosome 1 abnormalities are regularly encountered in both neoplastic and non-neoplastic medical conditions. The current review is focused on myeloid malignancies where we summarize the relevant published literature and discuss specific karyotype-phenotype associations. We show that chromosome 1 abnormalities are most frequent in BCR-ABL-negative classic myeloproliferative neoplasms (MPN): polycythemia vera (PV), essential thrombocythemia (ET), and primary myelofibrosis (PMF). Specific abnormalities include duplications (e.g. 1q12-->1q32 in PV, 1q21-32-->1q32-44 in post-PV MF or PMF), deletions (e.g. 1p13-36-->pter in PV or PMF, 1q21 in PMF) and unbalanced translocations involving chromosome 6, such as der(6)t(1;6)(q21-25;p21.3-23), and other partner chromosomes involving 1q10/1p11 and 1q21-25 breakpoints. Although occasionally seen in chronic phase MPN, unbalanced 1;7 translocations, e.g. der(1;7)(q10;p10), are usually seen in acute myeloid leukemia (AML), myelodysplastic syndromes (MDS), and post-MPN AML/MDS. These observations suggest that certain chromosome 1 regions, especially 1q21-1q32 and 1p11-13, might harbor oncogenes or tumor suppressor genes that are pathogenetically relevant to both chronic and advanced phases of MPN.
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PMID:Chromosome 1 abnormalities in myeloid malignancies: a literature survey and karyotype-phenotype associations. 2000 54

Myeloproliferative neoplasms (MPNs) originate from genetically transformed hematopoietic stem cells that retain the capacity for multilineage differentiation and effective myelopoiesis. Beginning in early 2005, a number of novel mutations involving Janus kinase 2 (JAK2), Myeloproliferative Leukemia Virus (MPL), TET oncogene family member 2 (TET2), Additional Sex Combs-Like 1 (ASXL1), Casitas B-lineage lymphoma proto-oncogene (CBL), Isocitrate dehydrogenase (IDH) and IKAROS family zinc finger 1 (IKZF1) have been described in BCR-ABL1-negative MPNs. However, none of these mutations were MPN specific, displayed mutual exclusivity or could be traced back to a common ancestral clone. JAK2 and MPL mutations appear to exert a phenotype-modifying effect and are distinctly associated with polycythemia vera, essential thrombocythemia and primary myelofibrosis; the corresponding mutational frequencies are approximately 99, 55 and 65% for JAK2 and 0, 3 and 10% for MPL mutations. The incidence of TET2, ASXL1, CBL, IDH or IKZF1 mutations in these disorders ranges from 0 to 17%; these latter mutations are more common in chronic (TET2, ASXL1, CBL) or juvenile (CBL) myelomonocytic leukemias, mastocytosis (TET2), myelodysplastic syndromes (TET2, ASXL1) and secondary acute myeloid leukemia, including blast-phase MPN (IDH, ASXL1, IKZF1). The functional consequences of MPN-associated mutations include unregulated JAK-STAT (Janus kinase/signal transducer and activator of transcription) signaling, epigenetic modulation of transcription and abnormal accumulation of oncoproteins. However, it is not clear as to whether and how these abnormalities contribute to disease initiation, clonal evolution or blastic transformation.
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PMID:Novel mutations and their functional and clinical relevance in myeloproliferative neoplasms: JAK2, MPL, TET2, ASXL1, CBL, IDH and IKZF1. 2042 94

Transformation of Philadelphia (Ph)-negative myeloproliferative neoplasms (MPNs) to myelodysplastic syndrome (MDS) or acute myeloid leukemia (AML) is associated with poor response to chemotherapy and short survival. Fifty-four patients with Ph-negative MPN (including 21 essential thrombocythemia [ET], 21 polycythemia vera [PV], 7 primary myelofibrosis, and 5 unclassified MPN) who had progressed to AML (n = 26) or MDS (n = 28) were treated with azacitidine in a patient-named program. Overall response rate was 52% (24% complete response [CR], 11% partial response [PR], 8% marrow CR or CR with incomplete recovery of cytopenias, 9% hematologic improvement) and median response duration was 9 months. Prognostic factors were for overall response the underlying MPN (71% vs 33% responses in ET and PV, respectively; P = .016); prognostic factors for CR achievement were the underlying MPN (14% CR for PV vs 43% for ET; P = .040) and World Health Organization classification at transformation (36% vs 12% CR in MDS and AML, respectively, P = .038). Recurrence of chronic phase features of the initial MPN was observed in 39% of the responders. Median overall survival was 11 months. Azacitidine gives encouraging results in Ph-negative MPN having progressed to AML or MDS, but response duration is short, and consolidation treatments have to be evaluated.
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PMID:Treatment of progression of Philadelphia-negative myeloproliferative neoplasms to myelodysplastic syndrome or acute myeloid leukemia by azacitidine: a report on 54 cases on the behalf of the Groupe Francophone des Myelodysplasies (GFM). 2066 61

Tet2 (the 2nd member of tet oncogene family) is a newly discovered antioncogene on the chromosome 4q24 of the patient with malignant myeloma, which has a potential for functional deletion. Recent studies demonstrated that tet2 mutation was found in polycythemia vera (PV), essential thrombocythemia (ET), myelofibrosis, systematic mastocytosis (SM), and myelodysplastic syndrome (MDS). However, a great number of perspective researches are still needed for exploring the role of tet2 in the pathogenesis of malignant blood diseases. In this review, the relation of tet2 mutation with myeloproliferative neoplasm, systemic mastocytosis, myelodysplastic syndrome, acute myeloid leukemia and other malignant blood diseases are summarized.
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PMID:[Mutation of tet2 gene and malignant blood disease]. 2072 37

Janus Kinase 2 (JAK2) is a member of a family of four Janus Kinases, 2, and 3 and tyrosine kinase 2. Mutated JAK2 (V617F) has the ability to activate downstream signal transducer and activator of transcription (STAT)-mediated transcription in the absence of the ligand erythropoietin. The autoinhibitory activity of JAK2 is disrupted by the presence of the V617F mutation. Somatic mutation in JAK2 (V617F) gene has been reported in myeloid disorders. This study reports the prevalence of JAK2V617F using amplification refractory mutation system (ARMS)-polymerase chain reaction in 246 Egyptian patients with different myeloid disorders and studied the relationship between the JAK2V617F mutation and parameters in peripheral blood. The mutation was detected among 88 patients (35.8%) with different myeloid disorders. JAK2V617F was found among 81.4% of polycythemia vera (PV), 50% of essential thrombocythemia, 46.1% of primary myelofibrosis (PMF), 33.3% of philadelphia (Ph)-negative chronic myeloid leukemia, 33.3% of myelodysplastic syndrome (MDS)/myeloproliferative neoplasm (MPN), and 50% of refractory anemia with ringed sideroblasts associated with marked thrombocytosis (RARS-T) patients. Hemoglobin and white blood cells were significantly higher in the mutated group of MPN including PV, essential thrombocythemia, and PMF, whereas platelet counts were higher among the mutated PV, PMF, RARS-T, and MDS/MPN group. The identification of JAK2V617F mutations has raised the prospect of developing specific JAK2V617F inhibitors to treat mutated patients.
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PMID:Acquired mutation of the tyrosine kinase JAK2V617F in Egyptian patients with myeloid disorders. 2103 66

Myeloid neoplasms include cancers associated with both rapid (acute myeloid leukemias) and gradual (myelodysplastic syndromes and myeloproliferative neoplasms) disease progression. Percentage of blast cells in marrow is used to separate acute (rapid) from chronic (gradual) and is the most consistently applied prognostic marker in veterinary medicine. However, since there is marked variation in tumor progression within groups, there is a need for more complex schemes to stratify animals into specific risk groups. In people with acute myeloid leukemia (AML), pretreatment karyotyping and molecular genetic analysis have greater utility as prognostic markers than morphologic and immunologic phenotypes. Karyotyping is not available as a prognostic marker for AML in dogs and cats, but progress in molecular genetics has created optimism about the eventual ability of veterinarians to discern conditions potentially responsive to medical intervention. In people with myelodysplastic syndromes (MDS), detailed prognostic scoring systems have been devised that use various combinations of blast cell percentage, hematocrit, platelet counts, unilineal versus multilineal cytopenias and dysplasia, karyotype, gender, age, immunophenotype, transfusion dependence, and colony-forming assays. Predictors of outcome for animals with MDS have been limited to blast cell percentage, anemia versus multilineal cytopenias, and morphologic phenotype. Prognostic markers for myeloproliferative neoplasms (eg, polycythemia vera, essential thrombocythemia) include clinical and hematological factors and in people also include cytogenetics and molecular genetics. Validation of prognostic markers for myeloid neoplasms in animals has been thwarted by the lack of a large case series that requires cooperation across institutions and veterinary specialties. Future progress requires overcoming these barriers.
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PMID:Prognostic markers for myeloid neoplasms: a comparative review of the literature and goals for future investigation. 2113 42

The seminal discovery of the JAK2V617F mutation, which is highly prevalent in Philadelphia-negative myeloproliferative disorders, now renamed neoplasms, triggered an almost unprecedented explosion of interest and data in the field. Descriptions of additional mutations in exon 12 of JAK2, at position 515 in MPL, and a number of other mutations at low frequency followed these discoveries. These advances in our understanding of molecular pathogenesis of these conditions coincided with the publication of results from two major clinical studies, ECLAP and PT-1, which contributed important clinical insights and facilitated significant correlative data collection. This article, focusing mainly upon essential thrombocythemia and polycythemia vera, reviews four major themes: the impact upon classification of these disorders considering a radical review of current terminology, and then three areas pertinent to clinical management: the indications for cytoreductive therapy in which the key targets are to reduce thrombohemorrhagic complications, relieve disease-related symptoms, and minimize the risk of transformation to secondary myeloid malignancy such as myelodysplasia, leukemia, and secondary myelofibrosis; and second reviewing current and, last, future therapeutic options, in particular interferon and JAK2 inhibitors.
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PMID:Rethinking disease definitions and therapeutic strategies in essential thrombocythemia and polycythemia vera. 2123 82

Professor MA Rou has been engaged in clinical and basic research of hematology for more than 40 years. He is excel in the treatment of refractory hematological diseases under the guidance of holism and syndrome differentiation in Chinese medicine. Application of arsenic-containing Chinese herbal medicine in treating myelodysplastic syndrome (MDS), primary polycythemia vera (CMPD-PV), primary thrombocythemia (CMPD-ET), MDS-U, myeloproliferative disease, acute non lymphocytic leukemia except for promyelocytic leukemia, Prof. MA has made great innovation and exploration. For some diseases, he has obtained much mature experiences. Although some are still in the stage of exploration, ideal clinical effects has been shown primarily.
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PMID:[Clinical application of professor MA Rou's experience in treating hematological disease by arsenic-containing Chinese herbal medicine]. 2191 Mar 53


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