Leukemia research
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Asciminib is a potent, orally bioavailable, investigational drug that specifically and potently inhibits the tyrosine kinase activity of native ABL1, together with that of the chimeric BCR-ABL1 oncoprotein which causes chronic myeloid leukemia (CML). In contrast to ATP-competitive BCR-ABL1 kinase inhibitors employed to treat CML that target multiple kinases, asciminib binds to the myristate binding pocket on the kinase domains of ABL1 and BCR-ABL1. Hitherto no drugs have been developed whose mechanism of action involves interacting with myristate binding pockets on proteins, and analysis of the structures of such binding sites in proteins other than ABL1/ABL2/BCR-ABL1 strongly suggest that asciminib will not bind to these with high affinity. ⋯ Because asciminib does not bind to the ATP-binding site it maintains substantial activity against kinase domain mutations that impart acquired drug resistance to ATP-competitive drugs. However, in vitro studies in cells have identified BCR-ABL1 mutations that reduce the anti-proliferative activity of asciminib, some of which are associated with clinical resistance towards the drug in patients. Here we review effects of asciminib on mutant forms of BCR-ABL1, analyse their sensitivity towards the drug from a structural perspective and affirm support for employing combinations with ATP-competitive inhibitors to impede the reactivation of BCR-ABL1 kinase activity in patients receiving monotherapy.
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Acute myeloid leukemia (AML) is a heterogeneous disease. Until recently, treatment for patients with AML was limited to induction chemotherapy with cytarabine and anthracycline or hypomethylating agents, and, in some instances, allogeneic hematopoietic stem cell transplant. With the recent approval of new therapies-i.e., CPX-351, enasidenib, ivosidenib, gemtuzumab ozogamicin, and midostaurin-a new era in AML treatment has emerged. ⋯ This review discusses data, including associated safety profiles that supported these recent approvals, and provides insights to help clinicians navigate new therapy options for this devastating disease. Given the heterogeneity of AML, the treatment landscape will likely continue to grow and evolve as additional agents (and their combinations) are approved for the treatment of subpopulations of patients with AML. Physicians will need to remain abreast of the ever-changing treatment landscape.
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Patients with acquired and inherited bone marrow failure syndromes (BMFS) have ineffective hematopoiesis due to impairments of the hematopoietic stem cell compartment. Common manifestations of BMFS include varying degrees of peripheral blood cytopenias and, sometimes, progression to acute myelogenous leukemia. ⋯ The Aplastic Anemia and MDS International Foundation (AAMDSIF) is an independent nonprofit organization whose mission is to help patients and family members cope with BMFS. Here, we summarize recent scientific discoveries in several BMFS that were presented at the fifth International Bone Marrow Failure Disease Scientific Symposium 2016 that AAMDSIF sponsored on March 17-18, 2016, in Rockville, Maryland.
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Review Case Reports
MLL partner genes in secondary acute lymphoblastic leukemia: report of a new partner PRRC1 and review of the literature.
Secondary acute lymphoblastic leukemia (sALL) following chemotherapy and/or radiotherapy of previous malignancies represents 2-10% of all cases of ALL. A 72-year-old female patient was diagnosed with acute lymphoblastic leukemia following chemotherapy for a diffuse large B cell lymphoma. ⋯ Sixty-five cases of sALL associated with 11q23/MLL rearrangement, including 47 with a t(4;11)(q21;q23), were retrieved from the literature. Drug regimen used to treat the primary neoplasm was available for 54 patients; 52 had received a topoisomerase II inhibitor, known to induce MLL rearrangement.