Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0023473 (chronic myeloid leukemia)
 18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Megakaryocyte proliferation in bone marrow is a feature common to the three Philadelphia negative chromosome myeloproliferative disorders (MPD)--essential thrombocythemia (ET), polycythemia vera, and myelofibrosis with splenic myeloid metaplasia--and chronic myelocytic leukemia. Enlarged megakaryocytes, clustering in close neighbouring with multilobulated nuclei are the hallmark of all the Philadelphia negative chromosome MPD. Clonality of hematopoietic cells, based on X-chromosome inactivation can now be studied in a majority of female patients in all nucleated cell fractions as well as in platelets. A significant increase in circulating CFU-MK has been repeatedly observed in MPD as well as a spontaneous megakaryocyte colony formation in a majority of ET patients. Hypersensitivity to thrombopoietin (TPO) in relation with a functional defect of the TPO-MPL pathway may play a major role in spontaneous megakaryocyte growth. There is presently no currently available test of platelet functions able to predict the risk of occurrence of thrombotic or haemorrhagic complications in MPD patients. However the role of platelets activation in the pathogenesis of ischemic erythromelalgia has been established.
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PMID:[Dysmegakaryocytopoiesis and dysthrombopoiesis in myeloproliferative syndromes]. 907 18

By definition, myeloproliferative disorders (MPDs) are caused by an acquired somatic mutation of a hematopoietic progenitor/stem cell and have sporadic occurrence. However, well-documented families exist with first-degree relatives acquiring one or several MPDs. It is reasonable to assume that the germ-line mutation(s) or genetic background must facilitate or predispose for one or several somatic mutation(s) that lead to the MPD that is indistinguishable from the sporadic form. This is best documented in familial polycythemia vera (PV), which appears to be inherited as an autosomal dominant disorder with incomplete penetrance. However, there are also families wherein members develop any combination of MPDs, including PV, essential thrombocythemia (ET), chronic myelocytic leukemia (CML), and idiopathic myelofibrosis (IMF). A separate group of familial diseases is the familial thrombocythemias, wherein germ-line mutations in the genes for thrombopoietin or its receptor, MPL, cause polyclonal hereditary thrombocythemia, which may be clinically indistinguishable from ET. Patients with the congenital polycythemic condition "primary familial and congenital polycythemia" (PFCP) have characteristically decreased erythropoietin (Epo) levels similar to PV, hypersensitive erythroid progenitors, and low Epo levels; as such, this condition is often confused with PV. Therefore, PFCP will also be discussed here, while other congenital polycythemic states such as the Chuvash polycythemia that have elevated or inappropriately normal Epo levels will be omitted from this review in view of their distinct phenotype and unique laboratory features.
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PMID:Lessons from familial myeloproliferative disorders. 1621 40

As JAK2 V617F, MPL W515L is a novel acquired mutation that induces constitutive cytokine-independent activation of the JAK-STAT pathway in myeloproliferative disorders (MPD). The discovery of this mutation provides a novel mechanism for activation of signal transduction in hematopoietic malignancies. To investigate its prevalence in Chinese patients with MPD, we introduced allele-specific PCR (AS-PCR) combined with sequence analysis to simultaneously screen MPL W515L and JAK2 V617F mutations in 190 MPD patients. MPL W515L mutation was found to be harbored in only one of 102 patients, who had essential thrombocythemia (ET, 1.0%) and was not detected in patients with polycythemia vera (PV), idiopathic myelofibrosis (IMF), and chronic myelogenous leukemia (CML). Sixty-eight BCR/ABL-negative MPD patients (46.3%) were found harboring JAK2 V617F mutation (PV, 62.5%; ET, 42.1%; IMF 38.1%). Furthermore, MPL W515L and JAK2 V617F mutations were not detected in patients of acute myeloid leukemia, acute lymphoblastic leukemia, myelodysplastic syndromes, and CML. It has been shown that MPL W515L mutations may contribute to the primary molecular pathogenesis of Chinese patients with ET.
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PMID:MPL W515L mutation in Chinese patients with myeloproliferative diseases. 1846 14

Abnormal nuclear megakaryocytic staining for phospho-STAT5 (pSTAT5) correlates with JAK2 V617F mutational status in non-chronic myelogenous leukemia chronic myeloproliferative disorders. However, a proportion of wild-type JAK2 non-chronic myelogenous leukemia chronic myeloproliferative disorders cases also demonstrate this abnormal pSTAT5 expression pattern. We report a patient with a JAK2 V617F-negative myeloproliferative/myelodysplastic syndrome who had abnormal megakaryocytic pSTAT5 expression and a MPL W515L mutation. The patient was a 71-year-old man with anemia and thrombocythemia on laboratory examination. His peripheral blood smear demonstrated occasional dysplastic neutrophils. Bone marrow biopsy revealed hypercellular marrow with features consistent with myeloproliferative/myelodysplastic syndrome. Immunohistochemistry for pSTAT5 showed abnormal nuclear megakaryocyte positivity. Cytogenetic analysis revealed a normal karyotype, fluorescence in situ hybridization for BCR-ABL was negative, and JAK2 genotyping demonstrated wild-type JAK2. However, MPL genotyping showed a MPL W515L mutation. Abnormal nuclear megakaryocytic staining for pSTAT5 expression, previously associated with the JAK2 V617F mutation, is also associated with MPL W515L, likely reflecting activation of the JAK-STAT signaling pathway.
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PMID:Phospho-STAT5 expression pattern with the MPL W515L mutation is similar to that seen in chronic myeloproliferative disorders with JAK2 V617F. 1847 30

Therapeutically validated oncoproteins in myeloproliferative neoplasms (MPNs) include BCR-ABL in chronic myelogenous leukemia (CML) and a spectrum of PDGFRA/B mutant proteins that are products of intra- (eg, FIP1L1-PDGFRA) or interchromosomal (eg, ETV6-PDGFRB) gene fusions. Other MPN-relevant putative oncogenes that are awaiting therapeutic validation, include JAK2 and MPL mutations in polycythemia vera (PV), essential thrombocythemia (ET), and primary myelofibrosis (PMF); KITD816V and other KIT mutations in systemic mastocytosis, and FGFR1 rearrangements associated with the 8p11 leukemia/lymphoma syndrome. The current review focuses on mutant molecules of interest in classic MPNs (ie, CML, PV, ET, and PMF) in the context of their value as drug targets.
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PMID:Oncogenic signals as treatment targets in classic myeloproliferative neoplasms. 1914 89

Acquired mutations in the juxtamembrane region of MPL (W515L or W515K), the receptor for thrombopoietin, have been reported in patients with primary essential thrombocythemia (ET) or primary myelofibrosis (PMF). The mutations were detected by the newly developed real-time quantitative PCR (RQ-PCR) with TaqMan MGB probes and followed by the sequencing analysis. DNA samples were from 343 Chinese adults with JAK2V617F mutation-negative chronic myeloproliferative disorders (cMPDs). Reference curves were obtained using cloned fragments of MPL containing either the wild-type or MPL W515L or MPL W515K mutated sequence; the predicted sensitivity level was at least 0.5%(0.1-0.5%) for MPL W515L and 0.5%(0.2-0.5%) for MPL W515K mutant allele in a wild-type background. The detection rates of MPL W515 mutations were 3.5% in 199 ET patients (7/199), 12.5% in 24 PMF patients (3/24) and 5.6% in 36 cMPD-unclassed patients (2/36), respectively. No MPL W515 mutations were detected in 32 polycythemia vera (PV) patients, 40 chronic myeloid leukaemia (CML) patients, 12 hypereosinophilic syndrome (HES) patients and 29 normal volunteers. The mean calculated burden of MPL mutant alleles using RQ-PCR for MPL W515L/K was 24.88 +/- 14.80% (range, 1.10-56.32%). MPL W515L/K patients presented lower haemoglobin levels, compared with the patients with JAK2V617F mutation-positive cMPDs (p < 0.01). The results demonstrated that RQ-PCR was a reliable and sensitive method for large-scale screening of the MPL W515L/K mutation in patients suspected to have a cMPD. It can also provide a quantitative estimate of mutant allele burden that might be useful for both patient prognosis and monitoring response to therapy.
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PMID:MPL W515L/K mutations in 343 Chinese adults with JAK2V617F mutation-negative chronic myeloproliferative disorders detected by a newly developed RQ-PCR based on TaqMan MGB probes. 1927 16

According to the 2008 World Health Organization classification system for hematologic malignancies, the myeloproliferative neoplasms (MPN) include chronic myelogenous leukemia, polycythemia vera, essential thrombocythemia, primary myelofibrosis, mastocytosis, chronic eosinophilic leukemia-not otherwise specified, chronic neutrophilic leukemia, and "MPN, unclassifiable." All of these clinicopathologic entities are characterized by stem cell-derived clonal myeloproliferation, and their phenotypic diversity is ascribed to the occurrence of distinct oncogenic events. In the last 4 years, new JAK2 and MPL mutations have been added to previously described ABL and KIT mutations as molecular markers of disease in MPN. These discoveries have markedly simplified the approach to clinical diagnosis and have also provided molecular targets for the development of small-molecule drugs. In the current article, the authors provide a clinically oriented overview of MPNs in terms of their molecular pathogenesis, classification, diagnosis, and management.
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PMID:Advances in understanding and management of myeloproliferative neoplasms. 1936 82

The first formal classification of chronic myeloid neoplasms is credited to William Dameshek, who in 1951 described the concept of "myeloproliferative disorders (MPD)" by grouping together chronic myelogenous leukemia, polycythemia vera (PV), essential thrombocythemia (ET), and primary myelofibrosis (PMF). The 2001 World Health Organization (WHO) classification of myeloid malignancies included these MPDs under the broader category of chronic myeloproliferative diseases (CMPD), which also included chronic neutrophilic leukemia, chronic eosinophilic leukemia/hypereosinophilic syndrome (CEL/HES), and "CMPD, unclassifiable." The revised 2008 WHO classification system featured the following changes: 1) the term "CMPD" was replaced by "myeloproliferative neoplasm (MPN)," 2) mast cell disease was formally included under the category of MPN, and 3) the subcategory of CEL/HES was reorganized into "CEL not otherwise specified (CEL-NOS)" and "myeloid and lymphoid neoplasms with eosinophilia and abnormalities of PDGFRA, PDGFRB, and FGFR1"; CEL-NOS remained a subcategory of "MPN," whereas the latter neoplasms were now assigned a new category of their own. Furthermore, diagnostic criteria for PV, ET, and PMF were revised by incorporating recently described molecular markers (eg, JAK2 and MPL mutations) as well as underscoring the role of histology in differentiating reactive from clonal myeloproliferations. As a result, red cell mass measurement is no longer necessary for the diagnosis of PV, and ET can now be diagnosed at a lower platelet count threshold. The revised WHO document continues to promote the recognition of histologic categories as a necessary first step toward the genetic characterization of myeloid malignancies.
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PMID:The 2008 World Health Organization classification system for myeloproliferative neoplasms: order out of chaos. 1947 96

The molecular profiling of myeloproliferative neoplasms (MPNs) has introduced a paradigm shift in the process of diagnosis, prognostication, monitoring and treatment of these diseases. The discovery of the BCR-ABL fusion oncogene is an example of a remarkable bench-to-bedside story. It has provided a comprehensive explanation of the pathogenesis of chronic myelogenous leukemia, and has resulted in the development of excellent treatment strategies. It has led to the use of advanced diagnostic techniques, such as fluorescence in situ hybridization and PCRs that allow for more effective means to monitor disease treatment, including the detection of minimal residual disease, early relapse and drug resistance. Unlike chronic myelogenous leukemia, the exact molecular pathways for the BCR-ABL-negative MPNs have not been completely elucidated. The discoveries of the JAK2 and the MPL mutations have set the ball rolling in trying to achieve this target. The JAK2 mutational screen has provided us with a relatively simple screening assay to establish clonality in the setting of MPNs. In patients with clonal eosinophilic disorders and mast cell disease, the use of molecular diagnostics to identify novel mutations and gene rearrangements, has resulted in superior diagnostic and therapeutic strategies.
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PMID:Molecular diagnosis of myeloproliferative neoplasms. 1958 Apr 32

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


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