Project description:Background: Genetic alterations in the transcriptional repressor ETV6 are associated with hematological malignancies. Notably, the t(12;21) translocation leading to an ETV6-AML1 fusion gene is the most common genetic alteration found in childhood acute lymphoblastic leukemia. Moreover, most of these patients also lack ETV6 expression, suggesting a tumor suppressor function. Results: To gain insights on ETV6 DNA-binding specificity and genome wide transcriptional regulation capacities, we performed chromatin immunoprecipitation experiments coupled to deep sequencing in a t(12;21)-positive pre-B leukemic cell line. This strategy led to high quality ETV6-bound regions. ETV6 binding is mostly cell type-specific as only few regions are shared with other blood cell subtypes. Peaks localization and motif enrichment analyses revealed a unique binding profile that is associated with the presence of the ETV6-AML1 fusion product. Conclusions: We described the first ETV6 binding map in the t(12;21) background. This study highlighted the complex and unique interplay between ETV6 and ETV6-AML1 and underscored the highly regulated mechanisms of ETV6 binding. ETV6 inactivation observed in this context could induce specific transcriptional changes promoting leukemic transformation.

Project description:B-cell precursor acute lymphoblastic leukemia (pre-B ALL) is the most common pediatric cancer. Although the genetic origin of the disease remains unclear, epigenetic modifications including DNA methylation are suggested to contribute significantly to leukemogenesis. We assessed the DNA methylation status of 402,842 CpG-sites across the genome (Illumina 450k array) in tumor and remission samples of 46 pre-B ALL patients, thus generating the most comprehensive single CpG-site resolution pre-B ALL methylomes so far. Unsupervised hierarchical clustering of CpG-site neighborhood, protein-coding gene, or miRNA gene associated methylation levels separated the tumor cohort according to major pre-B ALL subtypes, and methylation in CpG islands, shores, and in regions around the transcription start site of protein-coding genes strongly correlated with transcript expression. Focusing on samples carrying the t(12;21)(p13;q22) translocation (ETV6-RUNX1 fusion gene) we identified subtype-specific methylation of 430 CpG-sites. Pathway analyses implied the associated genes in hematopoiesis and cancer. Further intersection with transcriptome data identified methylation to impact expression of 18 genes. In summary, our data illustrate the power of methylation profiling to classify leukemic subtypes and to identify subtype-specific methylation markers. Further, we demonstrate that integration of methylome and transcriptome alterations allows the study of downstream effects of individual genomic rearrangements in cancer. Bisulfite converted DNA of tumor (isolated on day of diagnosis) and remission (isolated after disease remission) samples derived from 46 patients of French-Canadian origin diagnosed with pre-B ALL were analyzed on the Illumina Infinium HumanMethylation 450k BeadChips.

Project description:B-cell precursor acute lymphoblastic leukemia (pre-B ALL) is the most common pediatric cancer. Although the genetic origin of the disease remains unclear, epigenetic modifications including DNA methylation are suggested to contribute significantly to leukemogenesis. We assessed the DNA methylation status of 402,842 CpG-sites across the genome (Illumina 450k array) in tumor and remission samples of 46 pre-B ALL patients, thus generating the most comprehensive single CpG-site resolution pre-B ALL methylomes so far. Unsupervised hierarchical clustering of CpG-site neighborhood, protein-coding gene, or miRNA gene associated methylation levels separated the tumor cohort according to major pre-B ALL subtypes, and methylation in CpG islands, shores, and in regions around the transcription start site of protein-coding genes strongly correlated with transcript expression. Focusing on samples carrying the t(12;21)(p13;q22) translocation (ETV6-RUNX1 fusion gene) we identified subtype-specific methylation of 430 CpG-sites. Pathway analyses implied the associated genes in hematopoiesis and cancer. Further intersection with transcriptome data identified methylation to impact expression of 18 genes. In summary, our data illustrate the power of methylation profiling to classify leukemic subtypes and to identify subtype-specific methylation markers. Further, we demonstrate that integration of methylome and transcriptome alterations allows the study of downstream effects of individual genomic rearrangements in cancer.

Project description:Genome binding/occupancy profiling of ETS Variant Transcription Factor 6- Runt Related Transcription Factor 1 fusion protein (ETV6-RUNX1) in REH cells by high throughput sequencing. ETV6-RUNX1 is expressed in pediatric t(12;21) ETV6-RUNX1 B cell precursor acute lymphoblastic leukemia.

Project description:ETV6-RUNX1 is associated with childhood B-cell acute lymphoblastic leukemia (B-ALL), but the consequence of ETV6-RUNX1 expression on cell lineage decision during B-cell leukemogenesis remains largely evasive. Clinically silent ETV6-RUNX1 preleukemic clones are frequently found in neonatal cord blood, but only a few carriers develop B-ALL as a result of the acquisition of secondary postnatal genetic hits, like KDM5C or PAX5 loss. However, understanding the mechanism involved in this transformation would advance the development of non-toxic prophylactic interventions to preleukemic carriers. Using genetic lineage tracing, we have examined the capacity of ETV6-RUNX1 in instructing a B-cell malignant phenotype. Restricted Cre-mediated activation of ETV6-RUNX1 from the endogenous Etv6 locus into B-cell precursors does not trigger B-ALL development. Similarly, concomitant transient ETV6-RUNX1 expression in hematopoietic progenitors close to restricted Cre-mediated introduction of second hit (Kdm5c loss) in B-cells fail to induce B-ALL. In contrast, targeting ETV6-RUNX1 in hematopoietic progenitors was required to induce leukemia. These mice develop either T-ALL or B-ALL, suggesting that the nature of the second hit may define tumor cell identity during ETV6-RUNX1 leukemogenesis. In order to uncover a potential exclusive effect of the second hit in establishing the leukemic phenotype, we next showed that the introduction of the second hit, either Kdm5c or Pax5 loss, to the ETV6-RUNX1 preleukemic clone confers the tumor B-cell identity without need of environmental infection exposure. The resulting B-ALLs clustered according to the second-hit by RNA sequencing (RNA-Seq) analysis. Together these results provide a novel paradigm for the generation of tumor B cells through ETV6-RUNX1 in vivo where the second hit confers the tumor cell-identity to the ETV6-RUNX1 preleukemic clone. These findings could be relevant to develop new therapeutic approaches to prevent disease development.

Project description:Long non-coding RNAs (lncRNAs) play important roles in numerous diseases and represent an emerging layer of cancer biology. However, the role that lncRNAs play in the pathogenesis of pediatric B-cell leukemia (B-ALL) with t(12;21) (ETV6-RUNX1) translocation is largely unknown. In this study, we assessed the lncRNA expression profiles of 42 pediatric B-ALL (24 with and 18 without the t(12;21) translocation) and 4 bone marrows from healthy donors. We identified 117 lncRNAs that were differentially expressed (fold change> 1.5 and FDR > 0.05) between the B-ALL subgroups (ETV6-RUNX1-positive and ETV6-RUNX1-negative). The most upregulated lncRNAs in ETV6-RUNX1 positive B-ALL were TCL6, RP4-697K14.3, LOC100292680, RP11-345I18.1, LINC00599 and TRAF3IP2-AS1, while the most downregulated were RP11-135F9.1, RP11-561B11.1, AK095221, RP11-463H12.1, AC007283.4 and CCDC26. Coding-non-coding gene co-expression networks were constructed to identify lncRNAs with potential functions in ETV6-RUNX1 translocation. Levels of representative lncRNA-mRNA pairs were further detected by RT-qPCR in patients with pediatric B-ALL. Importantly, pediatric B-ALL patients who expressed low levels of the lncRNA TCL6 had lower disease-free survival than patients with high levels of TCL6. Thus, these findings provide the first detailed description of lncRNA expression profiles related to t(12;21) translocation in pediatric B-ALL. Such lncRNAs profiles might play important roles in driving normal cells to leukemic cells. These lncRNAs may provide novel molecular biomarkers and offer new basis for combating pediatric B-ALL.

Project description:To determine the protein partners of ETV6, we expressed ETV6 and HA-tagged ETV6 in Reh pre-B leukemic cells. Anti-HA magnetic beads were used for affinity purification of ETV6-HA (and ETV6 control) from the nuclear and cytoplasmic fraction. Following purification on-beads digest and LC-MS/MS experiments were performed at the Proteomics platform of the CHU de Quebec Research Center, Quebec, Canada.

Project description:CLIC5: a novel ETV6 target gene in childhood acute lymphoblastic leukemia

Project description:The chromosomal translocation t(12;21) resulting in the ETV6-RUNX1 fusion gene is the most common genetic abnormality in childhood acute lymphoblastic leukemia (ALL). As the emergence of microarray technology, finding subtype-specific genes becomes one of the main objectives in most ALL studies. However, the list of differentiated genes derived by comparing patients in the subtype versus the others contains many false positives, which are not really subtype-specific. In order to refine the list of subtype-specific genes for ALL with ETV6-RUNX1, this study conducted microarray experiments on patients in both diagnosis and remission status.

Project description:ETV6-RUNX1 (E/R) fusion gene, arising in utero from t(12;21), is the most frequent alteration in childhood acute lymphoblastic leukemia (ALL). Despite this, E/R is insufficient to overt disease since it generates a clinically silent pre-leukemic clone which contributes to hematopoiesis but fail to out-compete normal hematopoietic progenitors. Conversely, pre-leukemic cells show increased susceptibility to malignant transformation following additional genetic insults. Infections/inflammation are the most accredited triggers for mutations accumulation and progression in E/R+ pre-leukemic cells. However, how E/R and inflammation interact in promoting leukemia, both directly or through other cellular components in the bone marrow (BM) niche, is still poorly understood. Here, we demonstrate that IL6/TNFα/ILβ pro-inflammatory cytokines cooperate with BM-MSC in promoting the emergence of E/R+ murine pro-B cells over their normal counterparts by differentially affecting their proliferation, survival and migration. Very interesting, E/R-expressing human CD34+IL7R+ progenitors, a candidate population for pre-leukemic initiation during development, were preserved within the inflamed niche compared to their normal counterparts. Finally, the extent of DNA damage and activation-induced cytidine deaminase (AID) expression increase within the inflamed niche in both cell type, potentially leading to transformation in the apoptosis-resistant pre-leukemic clone. Overall, our data provide new mechanistic insights in childhood ALL pathogenesis.