UMLS:C0023473 - FACTA Search

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Query: UMLS:C0023473 (chronic myeloid leukemia)
18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The molecular pathogenesis of the myeloproliferative disorders (MPD) is poorly understood, except for chronic myeloid leukemia (CML). Recently, several groups have discovered a novel recurrent unique acquired clonal mutation in a tyrosine-kinase JAK2 in patients with Philadelphia-negative MPD and other myeloid disorders. It consists in a guanine-to-thymine change encoding a valine to phenylalanine at codon 617 (JAK2 V617F). JAK2 and the other members of the Janus kinase family are tyrosine kinases that function as intermediates between membrane receptors and intracellular signalling molecules. The mutation occurs within the enzymatically inactive JH2 pseudo-kinase domain that regulates the active JH1 kinase domain. The JAK2 activation leads to constitutive JAK and STAT (activators of transcription) hyperactivation with induction of growth factor hypersensitivity and cell transformation. Some authors have found a higher risk of vascular thrombosis and higher platelet activation when the mutation is present. Therefore, the JAK2 mutation offers a molecular target for new drugs investigation in a similar way to bcr/abl rearrangement in CML. For all these reasons, several studies related to JAK2 have arisen in the last year. In this report, we will review the literature and discuss its possible clinical and prognostic significance.
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PMID:JAK2 as a molecular marker in myeloproliferative diseases. 1763 Sep 45

Chronic myelogenous leukemia is a malignant disease of the hematopoietic stem cell compartment, which is characterized by expression of the BCR-ABL fusion protein. Expression of BCR-ABL allows myeloid cells to grow in the absence of the growth factors interleukin-3 and granulocyte-macrophage colony-stimulating factor. The tyrosine kinase activity of BCR-ABL constitutively activates signaling pathways associated with Ras and its downstream effectors and with the Jak/STAT pathway. Additionally, we reported previously that BCR-ABL activates the transcription factor nuclear factor-kappaB (NF-kappaB) in a manner dependent on Ras and that inhibition of NF-kappaB by expression of a modified form of IkappaBalpha blocked BCR-ABL-driven tumor growth in a xenograft model. Here, we show that a highly specific inhibitor of IkappaB kinase beta, a key upstream regulator of the NF-kappaB pathway, induces growth suppression and death in cells expressing wild-type, Imatinib-resistant, or the T315I Imatinib/Dasatinib-resistant forms of BCR-ABL. Cell cycle variables were not affected by this compound. These data indicate that blockage of BCR-ABL-induced NF-kappaB activation via IkappaB kinase beta inhibition represents a potential new approach for treatment of Imatinib- or Dasatinib-resistant forms of chronic myelogenous leukemia.
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PMID:IkappaB kinase beta inhibition induces cell death in Imatinib-resistant and T315I Dasatinib-resistant BCR-ABL+ cells. 1824 68

The Raf/MEK/ERK, PI3K/PTEN/Akt/mTOR and Jak/STAT pathways are frequently activated in leukemia and other hematopoietic disorders by upstream mutations in cytokine receptors, aberrant chromosomal translocations as well as other genetic mechanisms. The Jak2 kinase is frequently mutated in many myeloproliferative disorders. Effective targeting of these pathways may result in suppression of cell growth and death of leukemic cells. Furthermore it may be possible to combine various chemotherapeutic and antibody-based therapies with low molecular weight, cell membrane-permeable inhibitors which target the Raf/MEK/ERK, PI3K/PTEN/Akt/mTOR and Jak/STAT pathways to ultimately suppress the survival pathways, induce apoptosis and inhibit leukemic growth. In this review, we summarize how suppression of these pathways may inhibit key survival networks important in leukemogenesis and leukemia therapy as well as the treatment of other hematopoietic disorders. Targeting of these and additional cascades may also improve the therapy of chronic myelogenous leukemia, which are resistant to BCR-ABL inhibitors. Furthermore, we discuss how targeting of the leukemia microenvironment and the leukemia stem cell are emerging fields and challenges in targeted therapies.
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PMID:Targeting survival cascades induced by activation of Ras/Raf/MEK/ERK, PI3K/PTEN/Akt/mTOR and Jak/STAT pathways for effective leukemia therapy. 1833 66

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

Disease progression in myeloid malignancies results from the accumulation of "mutations" in genes that control cellular growth and differentiation. Many types of genetic alterations have been identified in myeloid diseases. However, the mechanism(s) by which these cells acquire genetic alterations or "Genomic instability", is less well understood. Increasing evidence suggests that the genetic changes in myeloid malignancies lead to increased production of endogenous sources of DNA damage, such as, reactive oxygen species (ROS). The fusion gene BCR-ABL in chronic myeloid leukemia (CML), FLT3/ITD in acute myeloid leukemia (AML), and RAS mutations in myelodysplastic syndromes (MDS)/myeloproliferative diseases (MPD) result in ROS production. Increased ROS can drive a cycle of genomic instability leading to DNA double strand breaks (DSBs) and altered repair that can lead to acquisition of genomic changes. Evidence is coming to light that defects in a main repair pathway for DSBs, non-homologous end-joining (NHEJ), lead to up-regulation of alternative or "back-up" repair that can create chromosomal deletions and translocations. This article will review evidence for activation of RAS/PI3K/STAT pathways, that lead to increased ROS, DNA damage and defective repair in myeloid diseases, a mechanism for acquisition of additional mutations that can drive disease progression.
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PMID:Genomic instability in myeloid malignancies: increased reactive oxygen species (ROS), DNA double strand breaks (DSBs) and error-prone repair. 1846 25

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

Imatinib is used to treat chronic myelogenous leukemia (CML), but resistance develops in all phases of this disease. The purpose of the present study was to identify the mode of resistance of newly derived imatinib-resistant (IM-R) and PD166326-resistant (PD-R) CML cells. IM-R and PD-R clones exhibited an increase in viability and a decrease in caspase activation in response to various doses of imatinib and PD166326, respectively, as compared with parental K562 cells. Resistance involved neither mutations in BCR-ABL nor increased BCR-ABL, MDR1 or Lyn expression, all known modes of resistance. To gain insight into the resistance mechanisms, we used pangenomic microarrays and identified 281 genes modulated in parental versus IM-R and PD-R cells. The gene signature was similar for IM-R and PD-R cells, accordingly with the cross-sensitivity observed for both inhibitors. These genes were functionally associated with pathways linked to development, cell adhesion, cell growth, and the JAK-STAT cascade. Especially relevant were the increased expression of the tyrosine kinases AXL and Fyn as well as CD44 and HMGA2. Small interfering RNA experiments and pharmacologic approaches identified FYN as a candidate for resistance to imatinib. Our findings provide a comprehensive picture of the transcriptional events associated with imatinib and PD166326 resistance and identify Fyn as a new potential target for therapeutic intervention in CML.
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PMID:Gene expression profiling of imatinib and PD166326-resistant CML cell lines identifies Fyn as a gene associated with resistance to BCR-ABL inhibitors. 1956 19

Chronic myeloid leukemia (CML) is a neoplastic disease of the hematopoietic stem cell. Heterogeneous nuclear ribonucleoprotein K (hnRNPK) may up-regulate the transcriptional activity of some oncogenes in cancerous cells. The aim of this study was to verify the expression pattern of hnRNPK in patients with CML, to explore its association with BCR-ABL and some abnormal signaling pathways, and to discover how hnRNPK contributes to the progression of CML. In this study, 15 patients with CML (9 in chronic phase and 6 in blast crisis) were enrolled in this study. The expression of hnRNPK in mononuclear cells (MNCs) from these patients was detected by Western blotting and fluorimeter-based quantitative real-time reverse transcriptase polymerase chain reaction. hnRNPK expression levels in K562 cell line and imatinib-resistant leukemic cell line K562R, following the treatments with the inhibitors of Ras-MAPK (PD98059), PI3K/AKT (LY294002), JAK/STAT (AG490) signaling pathways, and BCR-ABL [imatinib mesylate (IM)], were also determined. As the results, the overexpression of hnRNPK in protein and gene patterns was detected in MNCs from patients with CML comparing with normal donors. Especially, its level in MNCs from patients with CML-blast crisis was significantly higher than in CML-chronic phase cells (P < 0.01). After the treatment with PD98059 (at 4, 8, 24, and 48 h) and IM (at 48 h), the expression levels of hnRNPK in leukemic cell lines were decreased, comparing with DMSO control group (P < 0.05). In conclusion, the results suggest that the overexpression of hnRNPK, which is regulated by BCR-ABL and Ras-MAPK signaling pathways, may promote the progression of CML. hnRNPK would be a potential marker and therapeutic target of CML evolution.
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PMID:The role of heterogeneous nuclear ribonucleoprotein K in the progression of chronic myeloid leukemia. 1965 39

The discovery of JAK2 mutation has greatly facilitated the approach to diagnosis of myeloproliferative neoplasms besides chronic myeloid leukemia. Since major causes of morbidity and mortality in polycythemia vera (PV) and essential thrombocythemia (ET) are represented by thrombosis, bleeding, progression to myelofiblosis, and tranfromation to leukemia, risk oriented therapeutic approach is recommended. Established risk factors for cardiovascular events are represented by older age (age over 60) and previous thrombosis. While there are some concerns, the JAK2 mutational status as well as mutant allele burden might be a new surrogate marker for stratified management of PV and ET. Finally, there is a great expectation for novel drugs targeting the constitutively active JAK2/STAT pathway.
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PMID:[Treatment of myeloproliferative neoplasms other than chronic leukemia]. 1986 Jan 98

Hematopoietic stem and progenitor cell (HSPC) expansion is regulated by intrinsic signaling pathways activated by cytokines. The intracellular kinase JAK2 plays an essential role in cytokine signaling, and activating mutations in JAK2 are found in a number of hematologic malignancies. We previously demonstrated that lymphocyte adaptor protein (Lnk, also known as Sh2b3) binds JAK2 and attenuates its activity, thereby limiting HSPC expansion. Here we show that loss of Lnk accelerates and exacerbates oncogenic JAK2-induced myeloproliferative diseases (MPDs) in mice. Specifically, Lnk deficiency enhanced cytokine-independent JAK/STAT signaling and augmented the ability of oncogenic JAK2 to expand myeloid progenitors in vitro and in vivo. An activated form of JAK2, unable to bind Lnk, caused greater myeloid expansion than activated JAK2 alone and accelerated myelofibrosis, indicating that Lnk directly inhibits oncogenic JAK2 in constraining MPD development. In addition, Lnk deficiency cooperated with the BCR/ABL oncogene, the product of which does not directly interact with or depend on JAK2 or Lnk, in chronic myeloid leukemia (CML) development, suggesting that Lnk also acts through endogenous pathways to constrain HSPCs. Consistent with this idea, aged Lnk-/- mice spontaneously developed a CML-like MPD. Taken together, our data establish Lnk as a bona fide suppressor of MPD in mice and raise the possibility that Lnk dysfunction contributes to the development of hematologic malignancies in humans.
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PMID:Lnk constrains myeloproliferative diseases in mice. 2045 46

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