EC:2.7.10.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Molecular targeting therapies for hematological malignant diseases such as monoclonal antibodies and small molecules have been reviewed. Imatinib mesylate (STI571) targets the tyrosine kinase activity of the BCR-ABL fusion protein in CML, and was superior to IFN-alpha plus low-dose cytarabine in newly diagnosed chronic-phase CML in a phase III randomized study. Imatinib induced apoptosis in BCR-ABL-positive cells in vitro, and activates several signaling pathways such as PI3K/Akt, STAT5 and Ras/MAPK. Combination therapies with imatinib and new strategies for downregulation of intracellular BCR-ABL protein levels have also been investigated from the phenomenon of resistance to imatinib. Anti-CD20 (rituximab) became the first monoclonal antibody approved for the treatment of a relapsed/refractory follicular/low-grade NHL and promising results were obtained from a phase III randomized study. Although antibody-dependent cell-mediated cytotoxicity and complement-mediated cytotoxicity are likely to be the major effectors of B-cell depletion in vivo, direct cytotoxicity by CD20 monoclonal antibody on B-cell lines in vitro has been reported. Anti-CD33 (Mylotarg) and FLT3 inhibitors for AML have also been used in clinical trials and signaling pathways induced by these agents are under intensive investigation. Arsenic trioxide, like all-TRANS-retinoic acid (ATRA), downregulates promyelocytic leukemia protein/retinoic acid receptor-alpha (PML/RARalpha) fusion protein and induced apoptosis in APL cells, and promising results were obtained from ATRA-resistant APL patients. Finally we show our promising in vitro and in vivo data of R-etodolac (a non-steroidal anti-inflammatory drug lacking cyclooxygenase inhibitor activity) against chronic lymphocytic leukemia (CLL) cells.
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PMID:Apoptosis induced by molecular targeting therapy in hematological malignancies. 1464 49

The 8p11 myeloproliferative syndrome is an aggressive disorder caused by FGFR1 fusion proteins resulting from a subset of acquired translocations that target chromosome band 8p11. These chimeric proteins have constitutive FGFR1 tyrosine kinase activity and are believed to deregulate hemopoietic development in a manner analogous to BCR-ABL in chronic myeloid leukemia. Here we have studied the role of STAT proteins in transformation mediated by the most common of these fusions, ZNF198-FGFR1. We found that STATs 1, 3, and 5 were activated constitutively in ZNF198-FGFR1-transformed Ba/F3 cells and that STATs 2, 4, and 6 were also tyrosine-phosphorylated. Induction of dominant negative STAT mutants showed that activation of STAT5, but not STATs 1 or 3, was essential for the anti-apoptotic effect of ZNF198-FGFR1 and that STAT5 activation is essential for the elevated levels of BclXL in transformed cells. STAT5 activation was also shown to be required for continued cell cycle progression of BaF3/ZNF198-FGFR1 cells in conditions of cytokine deprivation and for up-regulation of the DNA repair protein Rad51. These findings suggest a critical role of STAT5 activation in transformation mediated by ZNF198-FGFR1.
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PMID:Critical role of STAT5 activation in transformation mediated by ZNF198-FGFR1. 1466 Jun 70

The roles of the JAK/STAT, Raf/MEK/ERK and PI3K/Akt signal transduction pathways and the BCR-ABL oncoprotein in leukemogenesis and their importance in the regulation of cell cycle progression and apoptosis are discussed in this review. These pathways have evolved regulatory proteins, which serve to limit their proliferative and antiapoptotic effects. Small molecular weight cell membrane-permeable drugs that target these pathways have been developed for leukemia therapy. One such example is imatinib mesylate, which targets the BCR-ABL kinase as well as a few structurally related kinases. This drug has proven to be effective in the treatment of CML patients. However, leukemic cells have evolved mechanisms to become resistant to this drug. A means to combat drug resistance is to target other prominent signaling components involved in the pathway or to inhibit BCR-ABL by other mechanisms. Treatment of imatinib-resistant leukemia cells with drugs that target Ras (farnysyl transferase inhibitors) or with the protein destabilizer geldanamycin has proven to be a means to inhibit the growth of resistant cells. This review will tie together three important signal transduction pathways involved in the regulation of hematopoietic cell growth and indicate how their expression is dysregulated by the BCR-ABL oncoprotein.
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PMID:JAK/STAT, Raf/MEK/ERK, PI3K/Akt and BCR-ABL in cell cycle progression and leukemogenesis. 1473 78

Imatinib, a specific inhibitor of the Abl, Kit and platelet-derived growth factor receptor (PDGFR) tyrosine kinases, is effective in all phases of chronic myelogenous leukemia. While responses in chronic phase are usually durable, resistance frequently develops in patients with advanced disease after an initial response. Several mechanisms of resistance have been demonstrated in vivo, including mutations in the BCR-ABL kinase domain and amplification of the BCR-ABL gene. We analyzed cytogenetics and screened for mutations of the BCR-ABL kinase domain as well as the activation loops of KIT and PDGFRA and B in 49 patients with CML or Ph-positive acute lymphoblastic leukemia with resistance to imatinib. Mutations in the kinase domain of BCR-ABL were detected in 51.6% of patients with secondary resistance but not in patients with primary resistance. Three of these mutations have not been described before (T315D, F359D and D276G). By contrast, KIT and PDGFRA and B were consistently wildtype. Clonal evolution prior to imatinib was present in 68.8% of patients with primary resistance and in 45.5% with secondary resistance. Additional cytogenetic aberrations developed in 18.2% of patients at the time of relapse. Our results confirm the high frequency of BCR-ABL kinase domain mutations in patients with secondary resistance to imatinib and exclude mutations of the activation loops of KIT, PDGFRA and PDGFRB as possible causes of resistance in patients without ABL mutations.
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PMID:High incidence of BCR-ABL kinase domain mutations and absence of mutations of the PDGFR and KIT activation loops in CML patients with secondary resistance to imatinib. 1474 31

Targeted therapies for hematological malignancies have come of age since the advent of all trans retinoic acid (ATRA) for treating APL and STI571/Imatinib Mesylate/Gleevec for CML. There are good molecular targets for other malignancies and several new drugs are in clinical trials. In this review, we will concentrate on individual abnormalities that exist in the myelodysplastic syndromes (MDS) and myeloid leukemias that are targets for small molecule therapies (summarised in Fig. 1). We will cover fusion proteins that are produced as a result of translocations, including BCR-ABL, the FLT3 tyrosine kinase receptor and RAS. Progression of diseases such as MDS to secondary AML occur as a result of changes in the balance between cell proliferation and apoptosis and we will review targets in both these areas, including reversal of epigenetic silencing of genes such as p15(INK4B).
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PMID:Targeted therapies in myeloid leukemia. 1475 35

The twenty-first century is beginning with a sharp turn in the field of cancer therapy. Molecular targeted therapies against specific oncogenic events are now possible. The BCR-ABL story represents a notable example of how research from the fields of cytogenetics, retroviral oncology, protein phosphorylation, and small molecule chemical inhibitors can lead to the development of a successful molecular targeted therapy. Imatinib mesylate (Gleevec, STI571, or CP57148B) is a direct inhibitor of ABL (ABL1), ARG (ABL2), KIT, and PDGFR tyrosine kinases. This drug has had a major impact on the treatment of chronic myelogenous leukemia (CML) as well as other blood neoplasias and solid tumors with etiologies based on activation of these tyrosine kinases. Analysis of CML patients resistant to BCR-ABL suppression by Imatinib mesylate coupled with the crystallographic structure of ABL complexed to this inhibitor have shown how structural mutations in ABL can circumvent an otherwise potent anticancer drug. The successes and limitations of Imatinib mesylate hold general lessons for the development of alternative molecular targeted therapies in oncology.
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PMID:The BCR-ABL story: bench to bedside and back. 1503 71

Nucleophosmin-anaplastic lymphoma kinase (NPM-ALK) is a constitutively active fusion tyrosine kinase involved in lymphomagenesis of human anaplastic large cell lymphomas (ALCL), the maturation and activity of which depend on the association with the heat shock protein (hsp) 90 protein chaperone. Targeting hsp90 by the ansamycins geldanamycin and 17-allyl-amino-demethoxygeldanamycin (17-AAG) promotes degradation of several proteins through the ubiquitin-proteasome pathway, including oncogenic Raf, v-Src, erbB2, and BCR-ABL. We have previously shown that 17-AAG prevents hsp90/NPM-ALK complex formation and fosters NPM-ALK turnover, perhaps through its association with the hsp70 chaperone. Here, we show that inhibition of the proteasome activity by the potent and specific compound pyrazylcarbonyl-Phe-Leu-boronate (PS-341) blocks 17-AAG-induced down-regulation of NPM-ALK, which becomes detergent-insoluble and relocates into ubiquitin-rich perinuclear vesicles that represent aggregated polyubiquitinated forms of the protein. Kinase activity was not mandatory for proteasomal degradation of NPM-ALK, because kinase-defective NPM-ALK was even more rapidly degraded upon 17-AAG treatment. Prolonged exposure to the proteasome inhibitor was shown to trigger caspase-3-mediated apoptosis in proliferating ALCL cells at nanomolar concentrations. However, we verified that the accumulation of detergent-insoluble NPM-ALK in ALCL cells was not a spurious consequence of PS341-committed apoptosis, because caspase inhibitors prevented poly(ADP-ribose) polymerase cleavage whereas they did not affect partitioning of aggregated NPM-ALK. In line with these observations, the carboxyl hsp70-interacting ubiquitin ligase (CHIP), was shown to increase basal ubiquitination and turnover of NPM-ALK kinase, supporting a mechanism whereby NPM-ALK proceeds rapidly toward hsp70-assisted ubiquitin-dependent proteasomal degradation, when chaperoning activity of hsp90 is prohibited by 17-AAG.
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PMID:Ubiquitination and proteasomal degradation of nucleophosmin-anaplastic lymphoma kinase induced by 17-allylamino-demethoxygeldanamycin: role of the co-chaperone carboxyl heat shock protein 70-interacting protein. 1512 67

Imatinib mesylate is remarkably effective in treating chronic myeloid leukemia and metastatic gastrointestinal stromal tumors. Meanwhile, anaplastic thyroid carcinoma (ATC) remains a fatal malignancy for which there are currently no effective curative interventions. In chronic myeloid leukemia and gastrointestinal stromal tumors, imatinib inhibits the constitutive tyrosine kinase activity of BCR-ABL and c-KIT, respectively. Reports suggest that imatinib may also be effective against ABL and platelet-derived growth factor receptor kinase-dependent pathological conditions. These mechanisms provide a wide scope of possible clinical applications for the drug. Potentially, diseases instigated by constitutive kinase activity that can be inhibited with imatinib should be treatable with this drug. We evaluated the effects of imatinib on the viability, cycling, and tyrosine phosphorylation of ATC cells in vitro. Our data indicate that imatinib has negligible antineoplastic activity against ATC cell lines within established therapeutically useful concentrations. No constitutive kinase activity was detected in these cell lines that could be exploited as a therapeutic target by imatinib. We conclude that imatinib mesylate monotherapy would not be effective in ATC patients. Current preclinical data do not warrant future clinical studies of imatinib monotherapy for ATC.
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PMID:Imatinib mesylate (gleevec; STI571) monotherapy is ineffective in suppressing human anaplastic thyroid carcinoma cell growth in vitro. 1512 30

Myeloid leukaemias are frequently associated with translocations and mutations of tyrosine kinase genes. The products of these oncogenes, including BCR-ABL, TEL-PDGFR, Flt3 and c-Kit, have elevated tyrosine kinase activity and transform haematopoietic cells, mainly by augmentation of proliferation and enhanced viability. Activated ABL kinases are associated with chronic myeloid leukaemia. Mutations in platelet-derived growth factor receptor beta are associated with chronic myelomonocytic leukaemia. Flt3 or c-Kit cooperate with other types of oncogenes to create fully transformed acute leukaemias. Elevated activity of these tyrosine kinases is crucial for transformation, thus making the kinase domain an ideal target for therapeutic intervention. Tyrosine kinase inhibitors for various kinases are currently being evaluated in clinical trials and are potentially useful therapeutic agents in myeloid leukaemias. Here, the authors review the signalling activities, mechanism of transformation and therapeutic targeting of several tyrosine kinase oncogenes important in myeloid leukaemias.
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PMID:Targeting mutated tyrosine kinases in the therapy of myeloid leukaemias. 1516 29

KIT and platelet-derived growth factor receptors (PDGFRs) play critical oncogenic roles in a broad spectrum of hematologic and solid tumors. These receptor tyrosine kinases, as well as ABL and BCR-ABL, are inhibited by imatinib. Tumors caused by chromosomal translocations that lead to overexpression of PDGFR ligand, resulting in continuous activation of wild-type PDGFRs, are likely to respond to imatinib, as are malignancies caused by gene amplification and overexpression of wild-type PDGFR or KIT receptors. Malignancies linked to chromosomal translocations that express PDGFR or KIT fusion protein-tyrosine kinases are also likely to respond to imatinib. Malignant cell responses to imatinib depend on whether any of these tyrosine kinase activities play essential roles in the oncogenesis of a given tumor, as well as the precise molecular mechanism underlying oncogenesis. For example, imatinib efficacy for malignancies arising from constitutively activating point mutations in tyrosine kinases depends on the exact location of the mutation in the kinase molecule.
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PMID:Role of KIT and platelet-derived growth factor receptors as oncoproteins. 1517 98

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