Transcriptome profiling reveals the high incidence of hnRNPA1 exon 8 inclusion in chronic myeloid leukemia.

Chronic myeloid leukemia (CML) is a malignancy that evolves through a multi-step process. Alternative splicing of several genes has been linked to the progression of the disease, but involvement of alternations in splicing profiles has not been reported. RNA-seq of peripheral blood mononuclear cell (PBMC) samples characterized the differentially expressed and spliced transcripts in five CML chronic phase (CP) and five blast phase (BP) patients, and five healthy controls. Global splicing alteration analysis detected 6474 altered splicing events altered between CML and healthy samples, including many of the previously reported splicing variants and showing a more profound altered splicing deregulation in BP samples. Functional clustering of differentially spliced genes in CP revealed a preferred enrichment relating to cell signaling, while the spliceosome pathway was most overrepresented in BP samples. One differentially spliced spliceosome gene hnRNPA1 showed two splice isoforms; the longer isoform contained exon 8 was preferentially expressed in the BP patients, and the short one excluding exon 8 was specific to healthy controls. Our findings suggested that alternative splicing deregulation played a central role during the progression of CML from CP to BP, and the longer isoform of hnRNPA1 might represent a diagnostic marker and therapeutic target for CML.