PURPOSE The treatment of chronic lymphocytic leukemia (CLL) has been revolutionized by targeted therapies that either inhibit proliferation (ibrutinib) or reactivate apoptosis (venetoclax). Both significantly improve survival in CLL and replace chemoimmunotherapy for many patients. However, individually, they rarely lead to eradication of measurable residual disease (MRD) and usually are taken indefinitely or until progression. We present the CLARITY trial that combined ibrutinib with venetoclax to eradicate detectable CLL with the intention of stopping therapy. PATIENTS AND METHODS CLARITY is a phase II trial that combined ibrutinib with venetoclax in patients with relapsed or refractory CLL. The primary end point was eradication of MRD after 12 months of combined therapy. Key secondary end points were response by International Workshop on CLL criteria, safety, and progression-free and overall survival. RESULTS In 53 patients after 12 months of ibrutinib plus venetoclax, MRD negativity (fewer than one CLL cell in 10,000 leukocytes) was achieved in the blood of 28 (53%) and the marrow of 19 (36%). Forty-seven patients (89%) responded, and 27 (51%) achieved a complete remission. After a median follow-up of 21.1 months, one patient progressed, and all patients were alive. A single case of biochemical tumor lysis syndrome was observed. Other adverse effects were mild and/or manageable and most commonly were neutropenia or GI events. CONCLUSION The combination of ibrutinib plus venetoclax was well tolerated in patients with relapsed or refractory CLL. There was a high rate of MRD eradication that led to the cessation of therapy in some patients. The progression-free and overall survival rates are encouraging for relapsed and refractory CLL.
Several recurrent translocations that involve chromosome band 8p11 have been described in myeloid malignancies. These translocations target two distinct genes: (1) FGFR1, a receptor tyrosine kinase for fibroblast growth factors, and (2) MOZ, a putative histone acetyltransferase whose precise function remains to be defined. Disruption of FGFR1 is associated with a disease entity known as the 8p11 myeloproliferative syndrome (EMS)/stem cell leukemia-lymphoma syndrome, a chronic myeloproliferative disorder that frequently presents with eosinophilia and associated T-cell lymphoblastic lymphoma. The disease is aggressive and rapidly transforms to acute leukaemia, usually of myeloid phenotype. Currently, only allogeneic stem cell transplantation appears to be effective in eradicating or suppressing the malignant clone. To date, four gene fusions associated with distinct translocations have been described in EMS: the t(8;13)(p11;q12), t(8;9)(p11;q33), t(6;8)(q27;p11) and t(8;22)(p11q22) fuse ZNF198, CEP110, FOP and BCR, respectively, to FGFR1. The resulting fusion proteins have constitutive tyrosine kinase activity and activate multiple signal transduction pathways. These pathways and the fusion proteins are attractive targets for targeted signal transduction therapy.
Outstanding results have been obtained in the treatment of chronic myeloid leukemia (CML) with first-line imatinib therapy. However, approximately 35% of patients will not obtain long-term benefit with this approach. Allogeneic hematopoietic stem cell transplantation (HCT) is a valuable second-and third-line therapy for appropriately selected patients. To identify useful prognostic indicators of transplantation outcome in postimatinib therapeutic interventions, we investigated the role of the HCT comorbidity index (HCT-CI) together with levels of C-reactive protein (CRP) before HCT in 271 patients who underwent myeloablative HCT for CML in first chronic phase. Multivariate analysis showed both an HCT-CI score higher than 0 and CRP levels higher than 9 mg/L independently predict inferior survival and increased nonrelapse mortality at 100 days after HCT. CML patients without comorbidities (HCT-CI score 0) with normal CRP levels (0-9 mg/L) may therefore be candidates for early allogeneic HCT after failing imatinib. IntroductionThe past decade has witnessed a dramatic change in the management of chronic myeloid leukemia (CML) such that the majority of patients initially receive therapy with imatinib rather than being offered allogeneic hematopoietic cell transplantation (HCT). 1 However, approximately 35% of these patients will fail to respond and/or develop intolerance. The treatment choices then include second-generation tyrosine kinase inhibitors and HCT, and the current challenge is to optimize the relative timings of these alternatives.The results of HCT in CML can be predicted using a prognostic score devised by the European Group for Blood and Marrow Transplantation (EBMT) based on 5 variables: donor type, disease phase, recipient age, donor/recipient sex combination, and interval from diagnosis to transplantation. 2 As the variable of disease phase resulted in higher relative risks than other variables in the model, 2 Passweg et al attempted to modify the score for patients in chronic phase for whom the decision of whether to undergo transplantation is most difficult. They found only one parameter with additional prognostic value, the Karnofsky performance score, and after inclusion the improvement over the original EBMT score was minimal. 3 The hematopoietic cell transplantation comorbidity index (HCT-CI) was developed to analyze the impact of comorbidities on outcome of HCT. 4 In several studies, the HCT-CI predicted for nonrelapse mortality (NRM) and overall survival (OS), 5-8 but it has never been studied specifically in patients with CML. C-reactive protein (CRP) is a sensitive marker of inflammation and persons with elevated levels of this acute phase protein are known to have an increased risk of cardiovascular diseases and malignancies. [9][10] We and others have previously shown the value of CRP levels shortly before HCT in predicting its outcomes. 11-12 However, it was unclear whether the elevated CRP was a reflection of an underlying comorbidity. In this study, we investigated the prognostic valu...
Summary. The RUNX1 (AML1, CBFA2) gene is a member of the runt transcription factor family, responsible for DNA binding and heterodimerization of other non-DNA binding transcription factors. RUNX1 plays an important part in regulating haematopoiesis and it is frequently disrupted by illegitimate somatic recombination in both acute myeloid and lymphoblastic leukaemia. Germline mutations of RUNX1 have also recently been described and are dominantly associated with inherited leukaemic conditions. We have identified a unique point mutation of the RUNX1 gene (A107P) in members of a family with autosomal dominant inheritance of thrombocytopenia. One member has developed acute myeloid leukaemia (AML).
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