RNA Sequencing Reveals Novel and Rare Fusion Transcripts in Acute Myeloid Leukemia

Acute Myeloid Leukemia (AML) is a highly heterogeneous disease and a complex network of events contribute to its pathogenesis. Chromosomal rearrangements and fusion genes have a crucial diagnostic, prognostic and therapeutic role in AML. A recent RNA sequencing (RNAseq) study on 179 AML revealed tha...

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Published in:Blood 2015-12, Vol.126 (23), p.3627-3627
Main Authors: Padella, Antonella, Simonetti, Giorgia, Paciello, Giulia, Ferrari, Anna, Zago, Elisa, Baldazzi, Carmen, Guadagnuolo, Viviana, Papayannidis, Cristina, Robustelli, Valentina, Imbrogno, Enrica, Testoni, Nicoletta, Musuraca, Gerardo, Soverini, Simona, Delledonne, Massimo, Iacobucci, Ilaria, Storlazzi, Clelia Tiziana, Ficarra, Elisa, Martinelli, Giovanni
Format: Article
Language:English
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Summary:Acute Myeloid Leukemia (AML) is a highly heterogeneous disease and a complex network of events contribute to its pathogenesis. Chromosomal rearrangements and fusion genes have a crucial diagnostic, prognostic and therapeutic role in AML. A recent RNA sequencing (RNAseq) study on 179 AML revealed that fusion events occur in 45% of patients. However, the leukemogenic potential of these fusions and their prognostic role are still unknown. To identify novel rare gene fusions having a causative role in leukemogenesis and to identify potential targets for personalized therapies, transcriptome profiling was performed on AML cases with rare and poorly described chromosomal translocations. Bone marrow samples were collected from 5 AML patients (#59810, #20 and #84 at diagnosis and #21 and #32 at relapse). RNAseq was performed using the Illumina Hiseq2000 platform. The presence of gene fusions was assessed with deFuse and Chimerascan. Putative fusion genes were prioritized using Pegasus and Oncofuse, in order to select biologically relevant fusions. Chimeras not supported by split reads, occurring in reactive samples, involving not annotated or conjoined genes were removed. The remaining fusions were prioritized according to mapping of partner genes to chromosomes involved in the translocation or to Chimerascan and deFuse concordance. The CBFβ-MYH11 chimera was identified in sample #84, carrying inv(16) aberration, thus confirming the reliability of our analysis. Sample #59810 carried the fusion transcript ZEB2-BCL11B (Driver Score, DS=0.7), which is an in-frame fusion and a rare event in AML associated with t(2;14)(q21;q32). The breakpoint of the fusion mapped in exon 2 of ZEB2 (ENST00000558170) and exon 2 of BCL11B (ENST00000357195). Differently from previous data, this fusion transcript showed 3 splicing isoforms. Type 1 isoform is the full-length chimera and it retains all exons of both genes involved in the translocation. Type 2 isoform was characterized by the junction of exon 2 of ZEB2 and exon 3 of BCL11B. In type 3 isoform, exon 2 and 3 of BCL11B were removed, resulting in an mRNA composed by exon 2 of ZEB2 and exon 4 of BCL11B. Gene expression profiling showed an upregulation of ZEB2 and BCL11B transcripts in the patient's blasts, compared to 53 AML samples with no chromosomal aberrations in the 14q32 region. The same samples showed the WT1-CNOT2 chimera, which is a novel out-of-frame fusion (DS= 0.008) related to t(11;12) translocation, identified by cyto
ISSN:0006-4971
1528-0020
DOI:10.1182/blood.V126.23.3627.3627