INTRODUCTION Acute lymphoblastic leukemia (ALL) is the most common malignancy in children, with the high hyperdiploid (HeH) subtype accounting for approximately 25% of B-cell precursor (BCP) ALL ...cases. It has been shown that germline variants in the ARID5B gene in chromosome band 10q21.2 are associated with increased risk of BCP ALL, in particular HeH ALL, and that the risk alleles result in lower expression of ARID5B in hematopoietic cells. ARID5B codes for a protein involved in regulating gene expression and chromatin remodeling. We have previously reported somatic deletions in the ARID5B locus in two cases of HeH ALL, but the overall frequency of acquired copy number changes and rearrangements involving ARID5B in BCP ALL remains unknown. Here, we have investigated constitutional and somatic ARID5B variants in pediatric BCP ALL, with a particular focus on HeH cases. METHODS Constitutional variants We studied four known risk single nucleotide polymorphisms (SNPs) in the ARID5B locus (rs7090445, rs7089424, rs7073837 and rs10740055) in HeH ALL cases heterozygous for the risk SNP and with trisomy 10. These were investigated in three different cohorts, including a total of 92 cases informative for rs7090445, 92 cases for rs7089424, 119 cases for rs7073837 and 66 cases for rs10740055. The genotype and relative allele frequencies were ascertained from SNP array or whole genome sequencing (WGS) data. One-sided binomial tests were applied to investigate whether the risk allele was more often in the duplicated chromosome than the non-risk allele. Somatic variants For somatic variants, we ascertained copy number status based on SNP array and/or WGS analysis in the ARID5B region in a total of 466 pediatric HeH ALL cases and structural rearrangements based on WGS in 77 cases. We also studied, using SNP array analysis, somatic copy number variants in a separate cohort consisting of 590 non-HeH BCP ALL cases. To compare the proportions of deletions in the HeH cohort and in the other genetic subtypes, we used Fisher's Exact two-sided test. RESULTS Constitutional variants All four risk SNPs showed a significantly higher proportion of risk allele duplication (one-sided binominal test); rs7090445 ( P=0.009), rs7089424 ( P=0.005), rs7073837 ( P=0.03) and rs10740055 ( P=0.04). This validates that there is a clonal selection for HeH blast cells with gain of the chromosome 10 homologue carrying the risk allele as opposed to gain of the homologue that carries the non-risk allele. Somatic variants Somatic deletions targeting ARID5B were found in 9/466 cases (1.9%) of HeH cases. The deletions covered different parts of ARID5B, with no minimally deleted region, suggesting that the functional outcome was downregulation of ARID5B expression. In the cohort with non-HeH BCP ALL (other genetic subtypes), 4/590 somatic deletions were found (0.68%). There was no statistically significant difference between the frequency of copy number aberrations targeting ARID5B between HeH and the other genetic subtypes of ALL (P=0.09). WGS analysis of the HeH cases revealed one translocation and one missense mutation in 2/77 cases (2.6%). The translocation involved the PAN3 and ARID5B genes and was also present in RNA sequencing data from this case. CONCLUSIONS We show that our previous finding that HeH ALL constitutionally heterozygous for ARID5B risk alleles and with an acquired trisomy 10 more commonly duplicates the chromosome 10 homologue carrying the risk allele holds true in a much larger cohort. Furthermore, somatic deletions involving ARID5B are recurrent in pediatric BCP ALL.
B cell progenitor acute lymphoblastic leukemia (BCP-ALL) is the most common childhood malignancy, driven by multiple genetic alterations that cause maturation arrest and accumulation of abnormal ...progenitor B cells. Current treatment protocols with chemotherapy have led to favorable outcomes but are associated with significant toxicity and risk of side effects, highlighting the necessity for highly effective, less toxic, targeted drugs, even in subtypes with a favorable outcome. Here, we used multimodal single-cell sequencing to delineate the transcriptional, epigenetic, and immunophenotypic characteristics of 23 childhood BCP-ALLs, belonging to the BCR::ABL1-positive, ETV6::RUNX1-positive, high hyperdiploid, and recently discovered DUX4-rearranged (DUX4-r) subtypes. Projection of the ALL cells along the normal hematopoietic differentiation axis revealed a diversity in the maturation pattern between the different BCP-ALL subtypes. Whereas the BCR::ABL1-, ETV6::RUNX1-positive, and high hyperdiploidy cells mainly showed similarities to normal pro-B cells, the DUX4-r ALL cells also displayed transcriptional signatures resembling mature B cells. Focusing on the DUX4-r subtype, we found that the blast population displayed multilineage priming toward non-hematopoietic cells, myeloid, and T cell lineages, but also an activation of PI3K/AKT signaling that sensitized the cells to PI3K inhibition in vivo. Given the multilineage priming of the DUX4-r blasts with aberrant expression of the myeloid marker CD371 (CLL-1), we generated chimeric antigen receptor T cells, which effectively eliminated DUX4-r ALL cells in vivo. These results provide a detailed characterization of BCP-ALL at the single-cell level and reveal therapeutic vulnerabilities in the DUX4-r subtype with implications for the understanding of ALL biology and new therapeutic strategies.
Despite the favorable prognosis of childhood acute lymphoblastic leukemia (ALL), a substantial subset of patients relapses. As this occurs not only in the high risk but also in the ...standard/intermediate groups, the presently used risk stratification is suboptimal. The underlying mechanisms for treatment failure include the presence of genetic changes causing insensitivity to the therapy administered. To identify relapse-associated aberrations, we performed single-nucleotide polymorphism array analyses of 307 uniformly treated, consecutive pediatric ALL cases accrued during 1992-2011. Recurrent aberrations of 14 genes in patients who subsequently relapsed or had induction failure were detected. Of these, deletions/uniparental isodisomies of ADD3, ATP10A, EBF1, IKZF1, PAN3, RAG1, SPRED1 and TBL1XR1 were significantly more common in B-cell precursor ALL patients who relapsed compared with those remaining in complete remission. In univariate analyses, age (≥10 years), white blood cell counts (>100 × 10(9)/l), t(9;22)(q34;q11), MLL rearrangements, near-haploidy and deletions of ATP10A, IKZF1, SPRED1 and the pseudoautosomal 1 regions on Xp/Yp were significantly associated with decreased 10-year event-free survival, with IKZF1 abnormalities being an independent risk factor in multivariate analysis irrespective of the risk group. Older age and deletions of IKZF1 and SPRED1 were also associated with poor overall survival. Thus, analyses of these genes provide clinically important information.
B cell progenitor acute lymphoblastic leukemia (BCP-ALL) is the most common childhood malignancy. It is initiated by multiple genetic alterations, causing a maturation arrest and accumulation of ...abnormal progenitor B cells. Current treatment protocols with chemotherapy have led to favorable outcomes, but are associated with significant toxicity and risk of side effects, highlighting the necessity for highly effective, less toxic, targeted drugs that also show efficacy in children experiencing relapse. We have used multimodal single-cell sequencing to delineate the transcriptional, epigenetic, and immunophenotypic characteristics of 23 childhood BCP-ALLs, including the BCR::ABL1-positive, ETV6::RUNX1-positive, high hyperdiploid, and recently discovered DUX4-rearranged subtypes. In total, 188,546 single cells derived from 23 BCP-ALLs and 9 normal bone marrow samples were profiled using the 10X Genomics platform. Cellranger multi and atac count (10X Genomics) were used to generate read count matrices. Further analysis was performed using Seurat and Signac. The in-house developed program SingleCellProjections was used to create a normal bone marrow reference graph onto which the BCP-ALL data was projected. Projection of the ALL cells along the normal B cell differentiation axis, revealed a diversity in the maturation block between the different BCP-ALL subtypes. Whereas the BCR::ABL1-, ETV6::RUNX1-positive and high hyperdiploidy cells mainly showed similarities to normal pro-B cells, the DUX4-rearranged ALL cells also displayed a transcriptional signature resembling mature B cells. In addition, the blast population in DUX4-rearranged ALLs showed multilineage priming toward non-hematopoietic cells, myeloid and T cell lineages, but also an activation of PI3K/AKT signaling that sensitized the cells to PI3K inhibition. Finally, we show that chimeric antigen receptor T cell therapy targeting the upregulated myeloid receptor CD371 (CLL-1), effectively eliminates DUX4-rearranged ALL cells. Our results provide a detailed characterization of BCP-ALL at the single-cell level and reveal therapeutic vulnerabilities in the DUX4-rearranged subtype with important implications for the understanding of ALL biology and new therapeutic strategies.
The genomic landscape and mechanisms driving relapse in KMT2A-rearranged ( KMT2A-r) infant and childhood acute lymphoblastic (ALL) and acute myeloid leukemia (AML) are not completely understood. We ...therefore studied 36 KMT2A-r ALL (n=19) and AML (n=17) patients of which 25 relapsed and 11 remained in remission. Twenty diagnose-relapse-germline trios and 5 multiple relapse samples were analyzed by whole genome (WGS) and whole exome sequencing (WES) and 30 patients longitudinally by using patient-specific mutations identified by WGS/WES, including the KMT2A-r (average coverage 3300X). The mutational burden increased from diagnosis to relapse and relapse evolved through branching evolution. Relapse was seeded by multiple diagnostic clones in 56%, by a single sweeping clone detected at diagnosis in 22%, and by a single sweeping clone not detected at diagnosis in 22%. Notably, the evolutionary patterns correlated to relapse time, where multiple diagnostic clones seeding relapse were connected to an earlier relapse with all very early relapse ALL (3/3, relapse <9 months from diagnosis) and half of the early AML relapse showing this pattern (2/4, relapse <1 year in complete remission, CR1). By contrast, later relapse was connected to a sweeping clone at relapse with 67% of early relapse ALL (>9 months from diagnosis) and 40% of late relapse AML (>1 year in CR1) showing this pattern. Pathway analysis showed that cell cycle genes, glucocorticoid signalling, purine metabolism, mismatch repair, and B-cell differentiation, were enriched in early relapse ALL (83%, 5/6) and included TP53, CREBBP, NT5C2 PMS2, PRPS2, NR3C1, IKZF1, with none of the very early relapse infant ALL harboring such alterations (n=4). Further, TP53 and IKZF1alterationsco-occurred (n=4/4). These results were validated in public data sets of 98 KMT2A-r ALL infants (n=84) and children (n=14) at diagnosis and relapse (n=24) and showed that 50% of early relapse ALL, and none of the 8 very early relapse ALL, had such alterations. Ultra-deep sequencing did not detect the CREBBP, NT5C2, PRPS2or TP53 mutations at diagnosis and manual inspection of the WGS reads failed to detect the PMS2 and NR3C1 deletions. In AML, TP53 and CCND3 alterations were maintained, and gain of WT1 was seen in late relapse AML. Signalling mutations were the most common type of mutations at diagnosis (64%) and relapse (56%) and the frequency was similar in patients that remained in remission and in those that relapsed (55% versus 60%). One infant ALL and four AML patients had multiple relapses, allowing us to study how the genetic landscape evolved across consecutive relapses. This showed a stepwise replacement of clones during treatment in agreement with a fitter clone that evolves under chemotherapeutic selective pressure. Longitudinal analysis allowed sensitive detection of residual leukemia cells and showed that the relapse clone could be detected at diagnosis in 64% of patients. Further, infants with >10% of molecularly detectable leukemia cells after induction therapy, had a high risk of a very early relapse. Ultra-deep sequencing allowed detection of the relapse clone up to 4 months before relapse. In 11 of the 30 patients (3 remission and 8 relapse), low-frequency KMT2A-fusion positive leukemic cells were found at remission outside of the MRD time points. Our longitudinal data also provided unique insights into clonal response to treatment by showing that 1) a change in therapy can favour the eradication of one clone and expansion of another, 2) a clone that initially was the most sensitive clone to therapy, was the one that eventually caused relapse, and 3), a diagnostic clone can be undetectable for a long time before expanding to cause relapse, suggesting that molecular monitoring with personal mutations is a powerful tool to follow response to therapy. These results provide new biological insights into the relapse mechanisms in KMT2A-r leukemia. The data shows different clonal evolution patters depending on when in time the patient relapsed, with very early relapse ALL being seeded by multiple diagnostic subclones and a paucity of acquired genetic alterations at relapse. By contrast, early relapse ALL was characterized by a single diagnostic clone seeding relapse by a clonal sweep along with acquired mutations in chemoresistance-associated genes. To validate and extend these findings, we are currently analyzing 11 additional infant relapse samples with WGS.
Childhood cancers are life-threatening diseases that affect the whole family. During the treatment moral situations might arise. Research on how parents perceive moral challenges in childhood cancer ...care is sparse. The aim was to explore parents’ main concern, and how they deal with their main concern, when facing moral challenges in childhood cancer care. Data collection included focus group interviews with parents. The data analysis was carried out according to a classical theory and revealed the core category “Sheltering in chaos”. The strategies to handle the main concern included “To bring the child through a life-saving trajectory” by “Balancing control” and “Deliberating of suffering. The consequences included feelings of being “Torn between roles”. “Familiarity” emerged as a facilitating factor to handle moral challenges. The results indicate that parents are torn between different roles, and that the care experience is improved through familiarity with the healthcare professionals. The following findings may inspire new ways of offering moral support to families in childhood cancer care.
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BFBNIB, DOBA, IZUM, KILJ, NUK, PILJ, PNG, SAZU, UILJ, UKNU, UL, UM, UPUK