Abstract
AbstractMalignant pleural mesothelioma (MPM), a rare cancer a long latency period (up to 40 years) between asbestos exposure and disease presentation. The mechanisms coupling asbestos to recurrent somatic alterations are poorly defined. Gene-fusions arising through genomic instability may create novel drivers during early MPM evolution. We explored the gene fusions that occurred early in the evolutionary history. We conducted multiregional whole exome sequencing (WES) of 106 samples from 20 patients undergoing pleurectomy decortication and identified 24 clonal non-recurrent fusions, three of which were novel (FMO9P-OR2W5,GBA3andSP9). The number of early gene fusion events detected varied from zero to eight per tumour, and presence of gene fusions was associated with clonal SCNAs involving the Hippo pathway genes and homologous recombination DNA repair genes. Fusions involved known tumour suppressorsBAP1,MTAP, andLRP1B,and a clonal oncogenic fusion involvingCACNA1D-ERC2, PARD3B-NT5DC2andSTAB2-NT5DC2fusions were also identified as clonal fusions. Gene fusions events occur early during MPM evolution. Individual fusions are rare as no recurrent truncal fusions event were found. This suggests the importance of early disruption of these pathways in generating genomic rearrangements resulting in potentially oncogenic gene fusions.
Publisher
Cold Spring Harbor Laboratory