Early T-cell precursor acute lymphoblastic leukaemia (ETP ALL) is an aggressive malignancy of unknown genetic basis. We performed whole-genome sequencing of 12 ETP ALL cases and assessed the frequency of the identified somatic mutations in 94 T-cell acute lymphoblastic leukaemia cases. ETP ALL was characterized by activating mutations in genes regulating cytokine receptor and RAS signalling (67% of cases; NRAS, KRAS, FLT3, IL7R, JAK3, JAK1, SH2B3 and BRAF), inactivating lesions disrupting haematopoietic development (58%; GATA3, ETV6, RUNX1, IKZF1 and EP300) and histone-modifying genes (48%; EZH2, EED, SUZ12, SETD2 and EP300). We also identified new targets of recurrent mutation including DNM2, ECT2L and RELN. The mutational spectrum is similar to myeloid tumours, and moreover, the global transcriptional profile of ETP ALL was similar to that of normal and myeloid leukaemia haematopoietic stem cells. These findings suggest that addition of myeloid-directed therapies might improve the poor outcome of ETP ALL.
Treatment of pediatric acute lymphoblastic leukemia (ALL) is based on the concept of tailoring the intensity of therapy to a patient's risk of relapse. To determine whether gene expression profiling could enhance risk assignment, we used oligonucleotide microarrays to analyze the pattern of genes expressed in leukemic blasts from 360 pediatric ALL patients. Distinct expression profiles identified each of the prognostically important leukemia subtypes, including T-ALL, E2A-PBX1, BCR-ABL, TEL-AML1, MLL rearrangement, and hyperdiploid >50 chromosomes. In addition, another ALL subgroup was identified based on its unique expression profile. Examination of the genes comprising the expression signatures provided important insights into the biology of these leukemia subgroups. Further, within some genetic subgroups, expression profiles identified those patients that would eventually fail therapy. Thus, the single platform of expression profiling should enhance the accurate risk stratification of pediatric ALL patients.
Human T cell leukemias can arise from oncogenes activated by specific chromosomal translocations involving the T cell receptor genes. Here we show that five different T cell oncogenes (HOX11, TAL1, LYL1, LMO1, and LMO2) are often aberrantly expressed in the absence of chromosomal abnormalities. Using oligonucleotide microarrays, we identified several gene expression signatures that were indicative of leukemic arrest at specific stages of normal thymocyte development: LYL1+ signature (pro-T), HOX11+ (early cortical thymocyte), and TAL1+ (late cortical thymocyte). Hierarchical clustering analysis of gene expression signatures grouped samples according to their shared oncogenic pathways and identified HOX11L2 activation as a novel event in T cell leukemogenesis. These findings have clinical importance, since HOX11 activation is significantly associated with a favorable prognosis, while expression of TAL1, LYL1, or, surprisingly, HOX11L2 confers a much worse response to treatment. Our results illustrate the power of gene expression profiles to elucidate transformation pathways relevant to human leukemia.
Background We conducted a clinical trial to test whether prophylactic cranial irradiation could be omitted in all children with newly diagnosed acute lymphoblastic leukemia. Methods A total of 498 evaluable patients were enrolled. Treatment intensity was based on presenting features and the level of minimal residual disease after remission induction treatment. Continuous complete remission was compared between the 71 patients who previously would have received prophylactic cranial irradiation and the 56 historical controls who received it. Results The 5-year event-free and overall survival probabilities (95% confidence interval) for all 498 patients were 85.6% (79.9% to 91.3%) and 93.5% (89.8% to 97.2%), respectively. The 5-year cumulative risk of isolated central-nervous-system (CNS) relapse was 2.7% (1.1% to 4.2%), and that of any CNS relapse (isolated plus combined) was 3.9% (1.9% to 5.9%). The 71 patients had significantly better continuous complete remission than the 56 historical controls (P=0.04). All 11 patients with isolated CNS relapse remain in second remission for 0.4 to 5.5 years. CNS leukemia (CNS-3 status) or a traumatic lumbar puncture with blasts at diagnosis and a high level of minimal residual disease (≥ 1%) after 6 weeks of remission induction were significantly associated with poorer event-free survival. Risk factors for CNS relapse included the presence of the t(1;19)[TCF3-PBX1], any CNS involvement at diagnosis, and T-cell immunophenotype. Common adverse effects included allergic reactions to L-asparaginase, osteonecrosis, thrombosis, and disseminated fungal infection. Conclusions With effective risk-adjusted chemotherapy, prophylactic cranial irradiation can be safely omitted in the treatment of childhood acute lymphoblastic leukemia.
Background-Approximately one-fifth of children with acute T-lymphoblastic leukemia (T-ALL) succumb to the disease, suggesting unrecognized biologic heterogeneity that may contribute to drug resistance. We hypothesized that T-ALL originating from early T-cell precursors (ETPs), a recently defined subset of thymocytes that retain stem cell-like features, would respond poorly to lymphoid-cell directed therapy. We studied leukemic cells, collected at diagnosis, to identify cases with ETP features and determine their clinical outcome.
The genetic basis of hypodiploid acute lymphoblastic leukemia (ALL), a subtype of ALL characterized by aneuploidy and poor outcome, is unknown. Genomic profiling of 124 hypodiploid ALL cases, including whole genome and exome sequencing of 40 cases, identified two subtypes that differ in severity of aneuploidy, transcriptional profile and submicroscopic genetic alterations. Near haploid cases with 24–31 chromosomes harbor alterations targeting receptor tyrosine kinase- and Ras signaling (71%) and the lymphoid transcription factor IKZF3 (AIOLOS; 13%). In contrast, low hypodiploid ALL with 32–39 chromosomes are characterized by TP53 alterations (91.2%) which are commonly present in non-tumor cells, and alterations of IKZF2 (HELIOS; 53%) and RB1 (41%). Both near haploid and low hypodiploid tumors exhibit activation of Ras- and PI3K signaling pathways, and are sensitive to PI3K inhibitors, indicating that these drugs should be explored as a new therapeutic strategy for this aggressive form of leukemia.
AUTHOR CONTRIBUTIONSCGM designed and coordinated the study, designed assays, performed experiments, analyzed data and wrote the manuscript JRC-U generated retroviral vectors and performed Ba/F3 assays LAAP performed JAK sequencing and quantitative PCR assays MLL performed PAR1 deletion genomic PCR WL performed statistical analysis JZ analyzed sequencing data Jing Ma analyzed microarray data EC-S performed flow cytometry and analyzed data RCH and CLW developed FISH assays Julia Meyer performed experiments and analyzed data FMM, AJC and NAH performed FISH assays and analyzed cytogenetic data RTW provided luciferase vectors JC designed subcloning vectors GB and AP provided patient samples SCR performed cytogenetic analysis SPH coordinated studies and sample collection JRD provided patient samples WLC provided patient samples, performed experiments and analyzed data KRR provided samples, performed experiments and analyzed data NIH Public Access Author ManuscriptNat Genet. Author manuscript; available in PMC 2010 May 1. Published in final edited form as:Nat Genet. SUMMARYAneuploidy and translocations are hallmarks of B-progenitor acute lymphoblastic leukemia (ALL), but many patients lack a recurring chromosomal alteration. Here we report a recurring interstitial deletion of the pseudoautosomal region 1 of chromosomes X and Y in B-progenitor ALL that juxtaposes the first, non-coding exon of P2RY8 to the coding region of CRLF2 (which encodes cytokine receptor like factor 2, or thymic stromal lymphopoietin receptor). The P2RY8-CRLF2 fusion was identified in 7% of B-progenitor ALL cases, and was identified in over 50% of ALL cases arising in patients with Down syndrome (53% of 75 cases). CRLF2 alteration was associated with the presence of activating JAK mutations, and expression of P2RY8-CRLF2 together with JAK2 mutants resulted in constitutive Jak-Stat activation and cytokine-independent growth of Ba/F3-IL7R cells, indicating that these two genetic lesions together contribute to leukemogenesis in B-progenitor ALL.Chromosomal alterations are a hallmark of acute lymphoblastic leukemia (ALL), the commonest malignancy of childhood, and include aneuploidy (hyperdiploidy and hypodiploidy) and recurring chromosomal translocations, such as t(12;21) [ETV6-RUNX1], t (1;19) [TCF3-PBX1], t(9;22) [BCR-ABL1] and rearrangement of MLL 1 . These alterations are important events in leukemogenesis and influence response to therapy. However, up to onequarter of childhood ALL cases lack a recurring chromosomal alteration, and the genetic basis of these cases is poorly understood.To identify submicroscopic genetic alterations contributing to the pathogenesis of ALL, we previously performed high resolution profiling of DNA copy number alterations and loss of heterozygosity (LOH) using single nucleotide polymorphism (SNP) microarrays, and identified multiple recurring genetic alterations targeting key cellular pathways including lymphoid development, cell cycle regulation and tumor suppression2 , 3. These alterations included a novel deletio...
Summary Background We sought to improve outcome of childhood acute myeloid leukemia (AML) by applying risk-directed therapy based on the genetic abnormalities of the leukemic cells and measurements of minimal residual disease (MRD) as determined by flow cytometry during treatment. Methods From October 13, 2002 to June 19, 2008, 232 patients with de novo AML (n=206), therapy- or myelodysplasia-related AML (n=12), or mixed-lineage leukemia (n=14) were enrolled at eight centers. Block, nonblinded randomization, stratified by cytogenetic or morphologic subtype, assigned patients to high-dose (18 g/m2, n=113) or low-dose (2 g/m2, n=117) cytarabine (A), given together with daunorubicin (D) and etoposide (E) (Induction I); achievement of MRD negative status was the primary endpoint. Induction II consisted of ADE with or without gemtuzumab ozogamicin (GO); consolidation therapy included three additional courses of chemotherapy or hematopoietic stem cell transplantation (HSCT). Levels of MRD were used to allocate GO and determine the timing of Induction II; both MRD and genetic abnormalities at diagnosis were used to determine final risk classification. Low-risk patients (n=68) received 5 courses of chemotherapy, whereas high-risk patients (n=79), as well as standard-risk patients (n=69) with matched sibling donors, were eligible for HSCT (performed in 48 high and 8 standard-risk patients). All randomized patients (n=230) were analyzed for the primary endpoint. The other analyses were limited to the 216 patients with AML, excluding mixed-lineage leukemia. This trial, closed to accrual, is registered with ClinicalTrial.gov, number NCT00136084. Findings The complete remission rates were 80% (173 of the 216) after Induction I and 94% (203 of 216) after Induction II. Induction failures included two toxic deaths and 10 cases of resistant leukemia. The introduction of high-dose cytarabine did not significantly lower the rate of MRD positivity after Induction I therapy (34% vs. 42%, P=0.17). The cumulative incidences of grade 3 or greater infection were 79.3% ± 4.0% and 75.5% ± 4.2% for patients treated on the high-dose or low-dose arms. The 3-year estimates (± SE) of event-free and overall survival were 63.0% ± 4.1% and 71.1% ± 3.8%, respectively. Achievement of MRD < 0.1% after Induction II identified a large group of patients (80%) with a cumulative incidence of relapse of only 17% ± 3%. Post-Induction I MRD ≥ 1% was the only independent adverse prognostic factor that was statistically significant (P < 0.05) for both event-free (HR, 2.41; CI 1.36–4.26; P=0.003) and overall survival (HR, 2.11; CI 1.09–4.11; P=0.028). Interpretation Our findings suggest that the use of targeted chemotherapy and HSCT, in the context of a comprehensive risk-stratification strategy based on genetic features and MRD findings, can improve the outcome of childhood AML.
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