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 outcome for adults with Philadelphia chromosome (Ph+) leukaemias (chronic myeloid leukaemia (CML) and acute lymphoblastic leukaemia (ALL)) has been dramatically improved with the use of tyrosine kinase inhibitors (TKIs), but progression and/or relapse are still present in the majority of patients. We reviewed recent findings obtained from analysis of BCR-ABL point mutations, gene expression profiling (GEP) analysis single nucleotide polymorphism (SNP) arrays and characterised by the identification of multiple novel genetic alterations targeting key cellular pathways, including lymphoid differentiation, cell cycle, tumour suppression, apoptosis and drug responsiveness. By GEP analysis, several down/up-expressed genes have been identified. Furthermore, by SNP array analysis, deletions of genes such as IKAROS, PAX5 and CDKN2A-CDKN2B were frequently identified. New therapeutic approaches with novel TKIs are now available. Dasatinib, nilotinib and bosutinib are now in clinical development. Some emerging aurora kinase inhibitors, such as VX-680, PHA-739358, MK-0457 and AS703569, and Smo1 and Hedgehog (Hh) inhibitors promise clinical efficacy against the Bcr-Ab T315I mutant form and leukaemia stem cells, respectively. In this review, we highlight the most promising drugs for the treatment of adult BCR-ABL-positive leukaemias.
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PMID:New targets for Ph+ leukaemia therapy. 1995 93

Imatinib is considered standard therapy for patients with chronic myelogenous leukemia (CML), inducing a high rate of hematologic and cytogenetic responses. Despite these excellent results, several patients develop resistance to imatinib. Mechanisms of resistance are varied and include BCR-ABL1 kinase domain mutations, decreased entry of imatinib into cells, acquisition of secondary genetic changes and activation of alternate signaling pathways. Second-generation tyrosine kinase inhibitors (TKI) (dasatinib, nilotinib) were developed as an alternative for patients that develop resistance or are intolerant to imatinib. Dasatinib is a dual Abl/Src kinase TKI that is structurally unrelated to imatinib and is approved for therapy of all phases of CML in patients who are resistant or intolerant to imatinib. Nilotinib is a compound related to imatinib that has greater specificity and improved binding characteristics, and has clinical activity in the setting of imatinib failure. Resistance to multiple TKIs does occur, particularly in patients with the T315I mutation. Several new agents are in development including new TKIs, aurora kinase inhibitors and homoharringtonine.
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PMID:Advances in treatment of chronic myelogenous leukemia--new treatment options with tyrosine kinase inhibitors. 2001 7

The BCR-ABL inhibitor imatinib revolutionized the treatment of chronic myeloid leukemia (CML). However, resistance and intolerance to imatinib have emerged as substantial clinical issues. The mechanisms underlying resistance are multifactorial and may include mutations in the kinase domain of BCR-ABL, increased production of BCR-ABL, or activation of BCR-ABL-independent pathways. Two second-line BCR-ABL inhibitors are now approved for treatment of patients with resistance or intolerance to imatinib. Dasatinib is a dual BCR-ABL/Src-family kinase (SFK) inhibitor approved for patients with imatinib-resistant and -intolerant CML in any phase and Ph+ ALL. Nilotinib, an analogue of imatinib, is approved for the treatment of imatinib-resistant or -intolerant patients with chronic or accelerated phase CML. Both agents have shown significant clinical activity in patients with imatinib-resistant or -intolerant CML, and their approval represents a major advancement in the treatment options available. Choosing the most appropriate treatment after imatinib failure may be critical in attaining the best possible long-term prognosis. The presence of certain disease characteristics (e.g. specific BCR-ABL mutations) or patient comorbidities may facilitate more effective treatment. In this review, we discuss mechanisms of imatinib resistance and preclinical and clinical data with dasatinib and nilotinib which may have potential use for guiding second-line treatment decisions.
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PMID:Use of dasatinib and nilotinib in imatinib-resistant chronic myeloid leukemia: translating preclinical findings to clinical practice. 2003 31

Dasatinib, (former BMS 354825), is an orally available small-molecule multikinase inhibitor. It potently inhibits BCR-ABL and SRC-family kinases (SRC, LCK, YES, FYN), but also c-KIT, PDGFR-alpha and beta, and ephrin receptor kinase.Dasatinib is about 300 times more potent than imatinib in cells expressing unmutated BCR-ABL in vitro. The drug has demonstrated activity against clinically relevant mutations, including those associated with poor prognosis during ongoing imatinib therapy.Dasatinib is approved for the treatment of patients with BCR-ABL-positive chronic myeloid leukemia (CML), resistant or intolerant to imatinib in chronic, accelerated, and blast phase. It also is approved for the treatment of Philadelphia Chromosome positive (Ph+) acute lymphoblastic leukemia (ALL) resistant or intolerant to imatinib.A single daily dose of 100 mg in chronic phase CML results in high hematologic and molecular remission rates and prolongation of survival. In accelerated and blastic phase as well as in ALL, 70 mg twice daily is recommended. Complete hematologic and cytogenetic remissions (CR) frequently occur even in this patient group with poor prognosis. Remissions however are very short.Side effects of dasatinib are frequent but mostly moderate and manageable and include cytopenias and pleural effusions. The role of dasatinib in other diseases, including solid tumors, has to be identified.
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PMID:Dasatinib. 2007 33

The Aurora kinases belong to a family of highly conserved serine/threonine protein kinases. They play an essential role as key mitotic regulators, controlling entry into mitosis, centrosome function, chromosome assembly, and segregation. As many other regulators of mitosis, Aurora kinases are frequently found to be aberrantly overexpressed in cancer cells. Therefore, these proteins have become an attractive target for the development of new anticancer therapies. In fact, several small-molecule inhibitors of Aurora kinases have already been developed and some of them have shown promising clinical efficacy in a number of human tumors in Phase I and II clinical trials. Among those, one of the most advanced clinical compound currently is Danusertib (formerly PHA-739358), which exhibits inhibitory activity against all known Aurora kinases as well as other cancer-relevant kinases such as the Bcr-Abl tyrosine kinase, including its multidrug-resistant T315I mutant. This mutation is responsible for up to 25% of all clinically observed resistances in CML patients undergoing Imatinib therapy. However, this particular mutation is predicted to play an even more important clinical role in the future, since in addition to Imatinib, it also confers resistance to second-generation Bcr-Abl inhibitors such as Nilotinib, Dasatinib, and Bosutinib. Therefore, combined Aurora and Bcr-Abl inhibition (the latter including high-grade resistance conferring mutations) with compounds such as Danusertib represents a promising new strategy for treatment of Bcr-Abl positive leukemias, especially those in second and third line of treatment.
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PMID:Danusertib (formerly PHA-739358)--a novel combined pan-Aurora kinases and third generation Bcr-Abl tyrosine kinase inhibitor. 2007 40

Dasatinib is a second-generation tyrosine kinase inhibitor that is approved for the treatment of imatinib-resistant or imatinib-intolerant chronic myeloid leukemia. It has a 325 times stronger in vitro activity against to native BCR-ABL when comparing with imatinib. Little is known about the effects of dasatinib on renal function. A literature review revealed only one case with imatinib-resistant chronic myeloid leukemia that developed renal failure after being placed on dasatinib therapy. Here we report a patient with imatinib-resistant chronic myeloid leukemia who developed gastroenteritis and acute renal failure after a short time from the initiation of dasatinib therapy. After dasatinib interruption, these side effects resolved completely in days. In summary, dasatinib is a potent drug in the treatment of chronic myeloid leukemia, but close clinical monitoring and the timely interruption of the therapy in patients who developed acute renal failure are warranted.
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PMID:Acute renal failure under dasatinib therapy. 2011 82

Dasatinib 70 mg twice daily is indicated for Philadelphia chromosome-positive acute lymphoblastic leukemia (Ph+ ALL) intolerant or resistant to imatinib. In patients with chronic-phase chronic myelogenous leukemia, once-daily dosing has similar efficacy with improved safety, compared with twice-daily dosing. A phase 3 study (n = 611) assessed the efficacy and safety of dasatinib 140 mg once daily versus 70 mg twice-daily in patients with advanced phase chronic myelogenous leukemia or Ph+ ALL resistant or intolerant to imatinib. Here, results from the Ph+ ALL subset (n = 84) with a 2-year follow-up are reported. Patients were randomly assigned to receive dasatinib either 140 mg once daily (n = 40) or 70 mg twice daily (n = 44). The rate of confirmed major hematologic response with once-daily dosing (38%) was similar to that with twice-daily dosing (32%). The rate of major cytogenetic response with once-daily dosing (70%) was higher than that with twice-daily dosing (52%). Compared with the twice-daily schedule, the once-daily schedule had longer progression-free survival (median, 3.0 months versus 4.0 months, respectively) and shorter overall survival (median, 9.1 months versus 6.5 months, respectively). Overall safety profiles were similar between two groups, with nonhematologic adverse events being mostly grade 1 or 2. Pleural effusion was less frequent with once-daily dosing than with twice-daily dosing (all grades, 18% versus 32%). Notably, none of the differences between the two schedules was statistically significant. Compared with the 70 mg twice daily, dasatinib 140 mg once daily had similar overall efficacy and safety in patients with imatinib-resistant or intolerant Ph+ ALL. (clinicaltrials.gov identifier: NCT00123487).
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PMID:Dasatinib 140 mg once daily versus 70 mg twice daily in patients with Ph-positive acute lymphoblastic leukemia who failed imatinib: Results from a phase 3 study. 2013 7

In chronic myeloid leukemia (CML), BCR/ABL-mediated oncogenic signaling can be targeted with the BCR/ABL-inhibitors Imatinib, Nilotinib and Dasatinib. However, these agents may also affect anti-tumor immunity. Here, we analyzed the effects of the 3 BCR/ABL-inhibitors on natural killer (NK) cell reactivity. Exposure of CML cells (K562, Meg-01) to pharmacological concentrations of Imatinib, Nilotinib and Dasatinib diminished expression of ligands for the activating immunoreceptor NKG2D to a similar extent. This resulted in comparably reduced NK cell cytotoxicity and IFN-gamma production. When direct effects on NK cell responses to K562 and primary CML cells as well as activating cytokines were studied, Dasatinib was found to abrogate NK cytotoxicity and cytokine production. Nilotinib did not alter cytotoxicity but, at high levels, impaired NK cytokine production, while Imatinib had no direct influence on NK cell reactivity. Of note, Nilotinib, but not the other BCR/ABL-inhibitors increased cell death within the preferentially cytokine-secreting CD56(bright)CD16(-) NK cell subset, which may, at least in part, serve to explain the effect of Nilotinib on NK cytokine production. Analysis of NK cell signaling revealed that Dasatinib inhibited proximal signaling events leading to decreased phosphorylation of PI3K and ERK that are crucial for NK cell reactivity. Imatinib and Nilotinib, in contrast, showed no relevant effect on NK cell PI3K or ERK activity. In light of the potential role of NK cells in the immunesurveillance of residual leukemia and for future combinatory immunotherapeutic approaches, our data indicate that choice and dosing of the most suitable BCR/ABL-inhibitor for a given patient require careful consideration.
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PMID:The BCR/ABL-inhibitors imatinib, nilotinib and dasatinib differentially affect NK cell reactivity. 2014 99

Chronic myelogenous leukemia (CML) can be controlled for years with the tyrosine kinase inhibitor imatinib but because imatinib poorly penetrates the blood-brain barrier (BBB), on occasion, the CML clone will thrive and evolve to an accelerated phase in the resulting imatinib sanctuary within the central nervous system. In this, CML resembles glioblastoma in that imatinib, which otherwise may be effective, cannot get to the tumor. Although a common street drug of abuse, methamphetamine is Food and Drug Administration-approved and marketed as a pharmaceutical drug to treat attention-deficit disorders. It has shown the ability to open the BBB in rodents. We have some clinical hints that it may do so in humans as well. This short note presents three new points potentially leading to better tyrosine kinase inhibition behind the BBB: 1) Pharmaceutical methamphetamine may have a useful role in treating both CML and glioblastoma by allowing higher imatinib concentrations behind the BBB. 2) The old antidepressant and monoamine oxidase inhibitor selegiline, used to treat Parkinson disease, is catabolized to methamphetamine. Selegiline, as a nonscheduled drug,may therefore be an easier way to open the BBB, allowing more effective chemotherapy with tyrosine kinases. 3) Dasatinib is a tyrosine kinase inhibitor with a spectrum of inhibition only partially overlapping that of imatinib and a mechanism of tyrosine kinase inhibition that is different from that of imatinib. The two should be additive. In addition, dasatinib crosses the BBB poorly, and it can therefore be expected to benefit from methamphetamine-assisted entry.
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PMID:Three paths to better tyrosine kinase inhibition behind the blood-brain barrier in treating chronic myelogenous leukemia and glioblastoma with imatinib. 2016 90

Dasatinib is approved for the treatment of chronic myeloid leukemia (CML) in patients with resistance or intolerance to imatinib. This article reviews pharmacokinetic, pharmacodynamic, and clinical data on dasatinib, and highlights some of the most important issues that need to be addressed. Imatinib and dasatinib both target the tyrosine kinase activity of the BCR/ABL oncogenic fusion protein. In terms of pharmacodynamics, the two agents differ in several ways: (i) dasatinib is >300-fold more potent than imatinib in inhibiting BCR/ABL activity; (ii) inhibition profiles on other tyrosine kinases differ between imatinib and dasatinib; and (iii) dasatinib has other peculiar effects on the leukemogenic signaling, including activation of p38 mitogen-activated protein kinase (MAPK) and reduction of the apoptotic-inactive form of the BCL2-associated agonist of cell death (BAD) protein. Recent pharmacodynamic data suggested combination therapy with dasatinib and signaling inhibitors (e.g. flavopiridol, farnesyl transferase inhibitors, or histone deacetylase inhibitors) may be beneficial. In contrast to other tyrosine kinase inhibitors (TKIs), dasatinib has a reduced half-life and no active metabolites. In a randomized, open-label, phase III trial, dasatinib 100 mg once daily demonstrated similar efficacy and a better tolerability profile than 70 mg twice daily. This unexpected result has been confirmed in recent studies, in which a dose of dasatinib 100 mg once daily was sufficient to trigger apoptosis in leukemic cells. Furthermore, cytogenetic responses correlate with BCR/ABL inhibition. Data suggest dasatinib 100 mg once daily achieves oncogenic shock and chronic inhibition of BCR/ABL activity, suggesting that in the future, pulse therapy with TKIs may be an option in some specific patients with CML.
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PMID:Dasatinib: is it all in the dose? 2022 56

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