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)

Activating mutations of the activation loop of KIT are associated with certain human neoplasms, including the majority of patients with systemic mast cell disorders, as well as cases of seminoma, acute myelogenous leukemia (AML), and gastrointestinal stromal tumors (GISTs). The small-molecule tyrosine kinase inhibitor imatinib mesylate is a potent inhibitor of wild-type (WT) KIT and certain mutant KIT isoforms and has become the standard of care for treating patients with metastatic GIST. However, KIT activation loop mutations involving codon D816 that are typically found in AML, systemic mastocytosis, and seminoma are insensitive to imatinib mesylate (IC50 > 5-10 micromol/L), and acquired KIT activation loop mutations can be associated with imatinib mesylate resistance in GIST. Dasatinib (formerly BMS-354825) is a small-molecule, ATP-competitive inhibitor of SRC and ABL tyrosine kinases with potency in the low nanomolar range. Some small-molecule SRC/ABL inhibitors also have potency against WT KIT kinase. Therefore, we hypothesized that dasatinib might inhibit the kinase activity of both WT and mutant KIT isoforms. We report herein that dasatinib potently inhibits WT KIT and juxtamembrane domain mutant KIT autophosphorylation and KIT-dependent activation of downstream pathways important for cell viability and cell survival, such as Ras/mitogen-activated protein kinase, phosphoinositide 3-kinase/Akt, and Janus-activated kinase/signal transducers and activators of transcription. Furthermore, dasatinib is a potent inhibitor of imatinib-resistant KIT activation loop mutants and induces apoptosis in mast cell and leukemic cell lines expressing these mutations (potency against KIT D816Y >> D816F > D816V). Our studies suggest that dasatinib may have clinical efficacy against human neoplasms that are associated with gain-of-function KIT mutations.
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PMID:Dasatinib (BMS-354825), a dual SRC/ABL kinase inhibitor, inhibits the kinase activity of wild-type, juxtamembrane, and activation loop mutant KIT isoforms associated with human malignancies. 1639 63

Mastocytosis is associated with an activating mutation in the KIT oncoprotein (KITD816V) that results in autophosphorylation of the KIT receptor in a ligand-independent manner. This mutation is inherently resistant to imatinib and, to date, there remains no effective curative therapy for systemic mastocytosis associated with KITD816V. Dasatinib (BMS-354825) is a novel orally bioavailable SRC/ABL inhibitor that has activity against multiple imatinib-resistant BCR-ABL isoforms in vitro that is presently showing considerable promise in early-phase clinical trials of chronic myeloid leukemia (CML). Pharmacokinetic analysis suggests that high nanomolar concentrations of dasatinib can be achieved safely in humans. In this study, we demonstrate significant inhibitory activity of dasatinib against both wild-type KIT and the KITD816V mutation in the nanomolar range in in vitro and cell-based kinase assays. Additionally, dasatinib leads to growth inhibition of a KITD816V-harboring human masto-cytosis cell line. Significantly, dasatinib selectively kills primary neoplastic bone marrow mast cells from patients with systemic mastocytosis while sparing other hematopoietic cells. Computer modeling suggests that the KITD816V mutation destabilizes the inactive conformation of the KIT activation loop to which imatinib binds, but it is not predicted to impair binding of KIT by dasatinib. Based upon our results, further evaluation of dasatinib for the treatment of systemic masto-cytosis in clinical trials is warranted. Moreover, dasatinib may be of clinical utility in other disease settings driven by activating KIT mutations.
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PMID:Dasatinib (BMS-354825) inhibits KITD816V, an imatinib-resistant activating mutation that triggers neoplastic growth in most patients with systemic mastocytosis. 1643 89

Dasatinib is a multitargeted kinase inhibitor that was recently approved for the treatment of chronic myelogenous leukemia and Philadelphia chromosome-positive acute lymphoblastic leukemia with resistance or intolerance to prior therapy. It is also in clinical trials for treating patients with solid tumors. The identification of molecular markers predictive of response to dasatinib could assist in clinical development by selecting patients most likely to derive clinical benefit. Using baseline gene expression profiling of a panel of 23 breast cancer cell lines, we identified genomic signatures highly correlated with in vitro sensitivity to dasatinib. The ability of these signatures to predict dasatinib sensitivity was further confirmed and validated in independent test cell lines. A six-gene model was used to correctly predict dasatinib sensitivity in 11 out of 12 (92%) additional breast and 19 out of 23 (83%) lung cancer cell lines. Quantitative real-time PCR and immunohistochemical assays further confirmed the differential expression pattern of selected markers. Finally, these gene signatures were observed in a subset of primary breast, lung, and ovarian tumors suggesting potential utility in patient selection. The subset of breast cancer patients expressing the dasatinib-sensitive signature includes a distinct clinical and molecular subgroup: the so-called "triple negative" (i.e., estrogen receptor-negative, progesterone receptor-negative, and HER2-negative) or "basal" breast cancer subtype. This patient population has a poor prognosis and currently has few effective treatment options. Our results implicate that dasatinib may represent a valuable treatment option in this difficult-to-treat population. To test this hypothesis, clinical studies are now under way to determine the activity of dasatinib in these patients.
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PMID:Identification of candidate molecular markers predicting sensitivity in solid tumors to dasatinib: rationale for patient selection. 1733 53

Vascular angiogenesis has been shown to play a key role in many solid tumors. The vascular endothelial growth factor (VEGF) isoforms and their tyrosine kinase receptors (VEGFRs) have been under intense research for effective anticancer drug candidates. Epidermal growth factor (EGF) and its receptor (EGFR) provide another pathway critical in monitoring angiogenesis. VEGF exerts its effect through binding to tyrosine kinase receptors, mainly VEGFR-1 (Flt-1, the fms-like tyrosine kinase-1) and VEGFR-2 (Flk-1/KDR, fetal liver kinase-1). This paper reviews the progress, mechanism, and binding modes of recently approved kinase inhibitors, such as sunitinib (Sutent), sorafenib (Nexavar) and dasatinib (Sprycel), as well as other inhibitors that are still under clinical development. Recent clinical treatments suggest that most inhibitors of VEGFR (and/or EGFR) exert their therapeutic effect through not only targeting the VEGFR (and/or EGFR) pathway, but also inhibiting other pathways, such as RAF/MEK/ERK pathway. A new pharmacophore model for second generation of type II tyrosine kinase inhibitors and recent advances in the combination of VEGFR tyrosine kinase inhibitors and other chemotherapeutics are also covered.
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PMID:Molecular design and clinical development of VEGFR kinase inhibitors. 1769 27

The BCR-ABL tyrosine kinase inhibitor imatinib represents the current frontline therapy in chronic myeloid leukemia. Because many patients develop imatinib resistance, 2 second-generation drugs, nilotinib and dasatinib, displaying increased potency against BCR-ABL were developed. To predict potential side effects and novel medical uses, we generated comprehensive drug-protein interaction profiles by chemical proteomics for all 3 drugs. Our studies yielded 4 major findings: (1) The interaction profiles of the 3 drugs displayed strong differences and only a small overlap covering the ABL kinases. (2) Dasatinib bound in excess of 30 Tyr and Ser/Thr kinases, including major regulators of the immune system, suggesting that dasatinib might have a particular impact on immune function. (3) Despite the high specificity of nilotinib, the receptor tyrosine kinase DDR1 was identified and validated as an additional major target. (4) The oxidoreductase NQO2 was bound and inhibited by imatinib and nilotinib at physiologically relevant drug concentrations, representing the first nonkinase target of these drugs.
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PMID:Chemical proteomic profiles of the BCR-ABL inhibitors imatinib, nilotinib, and dasatinib reveal novel kinase and nonkinase targets. 1772 Aug 81

We describe a chemical proteomics approach to profile the interaction of small molecules with hundreds of endogenously expressed protein kinases and purine-binding proteins. This subproteome is captured by immobilized nonselective kinase inhibitors (kinobeads), and the bound proteins are quantified in parallel by mass spectrometry using isobaric tags for relative and absolute quantification (iTRAQ). By measuring the competition with the affinity matrix, we assess the binding of drugs to their targets in cell lysates and in cells. By mapping drug-induced changes in the phosphorylation state of the captured proteome, we also analyze signaling pathways downstream of target kinases. Quantitative profiling of the drugs imatinib (Gleevec), dasatinib (Sprycel) and bosutinib in K562 cells confirms known targets including ABL and SRC family kinases and identifies the receptor tyrosine kinase DDR1 and the oxidoreductase NQO2 as novel targets of imatinib. The data suggest that our approach is a valuable tool for drug discovery.
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PMID:Quantitative chemical proteomics reveals mechanisms of action of clinical ABL kinase inhibitors. 1784 28

CML (chronic myeloid leukaemia) is a myeloproliferative disease that originates in an HSC (haemopoietic stem cell) as a result of the t(9;22) translocation, giving rise to the Ph (Philadelphia chromosome) and bcr-abl oncoprotein. The disease starts in CP (chronic phase), but as a result of genomic instability, it progresses over time to accelerated phase and then to BC (blast crisis), becoming increasingly resistant to therapy. bcr-abl is a constitutively active tyrosine kinase that has been targeted by TKIs (tyrosine kinase inhibitors), including IM (imatinib mesylate), nilotinib and dasatinib. We have developed various flow cytometry techniques to enable us to isolate candidate CML stem cells from CP patients at diagnosis that efflux Hoechst dye, express CD34, lack CD38 and are cytokine-non-responsive in culture over periods of up to 12 days in growth factors. These stem cells have been shown to regenerate bcr-abl-positive haemopoiesis in immunocompromised mice upon transplantation. We previously demonstrated that IM was antiproliferative for CML stem cells but did not induce apoptosis. Clinical experience now confirms that IM may not target CML stem cells in vivo with few patients achieving complete molecular remission and relapse occurring rapidly upon drug withdrawal. Our recent efforts have focused on understanding why CML stem cells are resistant to IM and on trying to find novel ways to induce apoptosis of this population. We have shown that CML stem cells express very high levels of functional wild-type bcr-abl; no kinase domain mutations have been detected in the stem cell population. Dasatinib, a more potent multitargeted TKI than IM, inhibits bcr-abl activity more efficiently than IM but still does not induce apoptosis of the stem cell population. Most recently, we have tested a number of novel drug combinations and found that FTIs (farnesyl transferase inhibitors) have activity against CML. BMS-214662 is the most effective of these and induces apoptosis of phenotypically and functionally defined CML stem cells in vitro, as a single agent and in combination with IM or dasatinib. The effect against CML stem cells is selective with little effect on normal stem cells. The drug is also effective against BC CML stem cells and equally effective against wild-type and mutant bcr-abl, including the most resistant mutant T315I. In association with apoptosis, there is activation of caspase 8 and caspase 3, inhibition of the MAPK pathway, IAP-1 (inhibitor of apoptosis protein-1), NF-kappaB (nuclear factor kappaB) and iNOS (inducible nitric oxide synthase). Furthermore, BMS-214662 synergizes with MEK1/2 [MAPK (mitogen-activated protein kinase)/ERK (extracellular-signal-regulated kinase) kinase 1/2] inhibitors, suggesting a second mechanism other that RAS inhibition for induction of apoptosis. Our intentions are now to explore the activity of BMS-214662 in other cancer stem cell disorders and to move this preclinical work to a clinical trial combining dasatinib with BMS-214662 in CML.
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PMID:Characterization of cancer stem cells in chronic myeloid leukaemia. 1795 48

Neuroblastoma (NB) and Ewing sarcoma (ES) are neuroectodermal tumors typical of pediatric age that, despite aggressive treatment, still present a poor prognosis when in advanced stages. Studies indicate that c-KIT and platelet-derived growth factor receptor (PDGFR) play a substantial role in the proliferation and survival of NB and ES cells. Dasatinib, an oral multi-targeted inhibitor of several kinases including BCR-ABL and SRC-family kinases, is also active against c-KIT and PDGFR. Here, we evaluated the effect of dasatinib on the NB cell lines SJ-N-KP, SK-N-BE, AF8 and IMR5, and on the ES lines PDE02, TC106 and 6647. Proliferation and viability assays showed that dasatinib exerts an antiproliferative activity with a peak effect occurring at 24 h. After a 24-h exposure to dasatinib at 100 nM, proliferation was inhibited by 29.4+/-5.7% in SJ-N-KP, 41.3+/-11.7% in IMR5, 35.3+/-7.6% in PDE02 and 14+/-10.6% in 6647. Dasatinib did not induce apoptosis in NB and ES cell lines. A possible antimigratory activity of dasatinib was evaluated by scratch test. Dasatinib at 100 nM inhibited the migration of NB and ES cell lines by a mean of 30.2 and 25.3%, respectively. This activity suggests a possible role of dasatinib in inhibiting metastasis and appears of particular interest, given the association between metastatic disease and poor prognosis in these tumors. In conclusion, the cytostatic and antimigratory activity of dasatinib in NB and ES cell lines and the lack of pro-apoptotic activity suggests a possible use for this compound in the treatment of these tumors as a combination with other cytotoxic therapy.
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PMID:In vitro antiproliferative and antimigratory activity of dasatinib in neuroblastoma and Ewing sarcoma cell lines. 1820 81

Dasatinib is a small-molecule inhibitor of multiple tyrosine kinases, including BCR-ABL, SRC, c-KIT, ephrin A receptor and platelet-derived growth factor-beta receptor kinases, at nanomolar concentrations. In vitro, dasatinib is 325-fold more potent than imatinib against cells expressing wild-type BCR-ABL. The efficacy and tolerability of oral dasatinib has been established in the START phase II trials in adults with chronic myeloid leukemia (CML) or Philadelphia chromosome-positive acute lymphoblastic leukemia (Ph-positive ALL) who were intolerant or resistant to imatinib, and optimal dasatinib dosage regimens were identified in phase III randomized trials. In patients with chronic phase CML, the major cytogenetic response rate in the START-C trial (median follow-up 15.2 months) was 59% with dasatinib, and in the randomized START-R trial (median follow-up 15 months), was greater with dasatinib than with high-dose imatinib (52% vs 33%). Major hematologic response rates with dasatinib were 63% in patients with accelerated phase CML (follow-up > or =9 months; START-A trial), 34% in patients with myeloid blast phase CML and 35% in those with lymphoid blast phase CML (follow-up > or =12 months; START-B and START-L trials), and 41% in patients with Ph-positive ALL (follow-up > or =12 months; START-L trial). Based on phase III results, a once-daily dasatinib regimen is considered optimal in chronic phase CML (starting dosage 100 mg once daily), while a twice-daily regimen continues to be recommended in accelerated phase, myeloid blast phase or lymphoid blast phase CML and Ph-positive ALL (starting dosage 70 mg twice daily). Adverse events were frequent in patients treated with dasatinib, but most were mild to moderate in severity. Grade 3/4 adverse events were uncommon and were clinically manageable.
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PMID:Dasatinib: in chronic myeloid leukemia and Philadelphia chromosome-positive acute lymphoblastic leukemia. 1821 92

Gastrointestinal Stromal Tumors (GISTs) are the most common mesenchimal tumors of the gastrointestinal tract. Such tumors usually have activating mutations in either KIT (75-80%) or Platelet Derived Growth Factor Receptor alpha (PDGFRa) (5-10%) which lead to ligand-independent signal transduction. Targeting these activated proteins with Imatinib mesylate, a small-molecule kinase inhibitor, has proven useful in the treatment of recurrent or metastatic GISTs. However, more than half of patients develop resistance to Imatinib after about 2 years. Therefore, other targets have been studying in order to implement the therapeutical armamentarium for this disease. Sunitinib malate is an oral multikinase inhibitor that targets several receptor tyrosine kinases and has proved to prolong survival in Imatinib-resistant patients. Other molecules, such as Nilotinib, Sorafenib and Dasatinib were shown to be useful in Imatinib resistant mutant cell lines and the results of their activity in humans are being awaited. Recent evidence suggests that GIST cells acquire the capability to escape from the control of KIT and PDGFRa through the activation of alternative pathways. Therefore, further effort should be invested in the discovery of new signaling pathways, such as AXL, MET, IGF-R, which might be involved in the evolution of the disease. After a description of KIT and PDGFRa as known targets of anti-GIST treatments, we review other mechanisms and mediators that might be potential targets of new therapies, providing a comprehensive revision of the new molecular strategies under investigation.
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PMID:Molecular targets in Gastrointestinal Stromal Tumors (GIST) therapy. 1869 Aug 42


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