Classification and genetics of pediatric B-other acute lymphoblastic leukemia by targeted RNA sequencing

Acute lymphoblastic leukemia (ALL) can be classified into different subgroups based on recurrent genetic alterations. Here, targeted RNA sequencing was used to identify the novel subgroups of ALL in 144 B-other and 40 classical ALL samples. The classical TCF3-PBX1, ETV6RUNX1, KMT2A-rearranged, and BCR-ABL1, and novel P2RY8-CRLF2, ABL-, JAK2-, ZNF384-, MEF2D-, and NUTM1-fusions were easily identified by fusion transcript analysis. IGH-CRLF2 and IGH-EPOR were found by abnormally high levels of expression of CRLF2 or EPOR. DUX4rearranged was identified by the unusual expression of DUX4 genes and an alternative exon of ERG, or by clustering analysis of gene expression. PAX5-driven ALL, including fusions, intragenic amplifications, and mutations were identified by single-nucleotide variant analysis and manual inspection using the IGV software. Exon junction analysis allowed detection of some intragenic ERG and IKZF1 deletions. CRLF2-high associated with initial white blood cell (WBC) counts of & GE;50 x 103/& mu;L and GATA3 risk alleles (rs3781093 and rs3824662), whereas ABL/ JAK2/EPOR-fusions associated with high WBC counts, National Cancer Institute's high-risk classification, and IKZF1del. ZNF384-fusions associated with CALLA-negativity and NUTM1fusions in infants. In conclusion, targeted RNA sequencing further classified 66.7% (96 of 144) B-other ALL cases. All BCP-ALL subgroups, except for iAMP21, hyperdiploid and hypodiploid cases, were identified. Curiously, we observed higher frequencies of females within B-rest ALLs and males in PAX5-driven cases.

Automated summary

Novel subgroups of ALL were identified using targeted RNA sequencing in 144 B-other and 40 classical ALL samples. Fusion transcript analysis easily identified known fusions and revealed novel fusions. Abnormally high expression of certain genes and detection of gene deletions were also used to classify the subgroups. The findings provide further insight into the genetic alterations in ALL and their association with clinical characteristics.