A complete digital karyotype of the B-cell leukemia REH cell line resolved by long-read sequencing

Abstract

ABSTRACTThe B-cell acute lymphoblastic leukemia (ALL) cell line REH, with the t(12;21)ETV6-RUNX1translocation, is known to have a complex karyotype defined by a series of large-scale chromosomal rearrangements. Taken from a 15-year-old at relapse, the cell line offers a practical model for the study of high-risk pediatric B-ALL patients. In recent years, short-read DNA and RNA sequencing have emerged as a complement to analog karyotyping techniques in the resolution of structural variants in an oncological context. However, it is challenging to create a comprehensive digital karyotype of a genome with these techniques alone. Here, we explore the integration of long-read PacBio and Oxford Nanopore whole genome sequencing (WGS), IsoSeq RNA-sequencing, and short-read sequencing to create a detailed digital karyotype of the REH cell line. WGS refined the breakpoints of known aberrations and clarified the molecular traits of disrupted ALL-associated genesBTG1andTBL1XR1, as well as the glucocorticoid receptorNR3C1. Several previously underreported structural variants were also uncovered, including deletions affecting the ALL-associated genesVPREB1andNFATC1. Meanwhile, transcriptome sequencing identified seven fusion genes within the genomic breakpoints. Together, our extensive whole-genome investigation makes high-quality open-source data available to the leukemia genomics community.KEY POINTSA complete digital karyotype of the REH cell line was produced with short- and long-read DNA and RNA sequencing technologies.The study enabled precise identification of structural variants, and the fusion genes expressed as the result of these variants.