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M. Oh
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P1.02 - Poster Session with Presenters Present (ID 454)
- Event: WCLC 2016
- Type: Poster Presenters Present
- Track: Biology/Pathology
- Presentations: 1
- Moderators:
- Coordinates: 12/05/2016, 14:30 - 15:45, Hall B (Poster Area)
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P1.02-073 - Characterizing the Genomes of Lung Adenocarcinomas from Never Smokers Reveals SHPRH as a Novel Candidate Tumour Suppressor Gene (ID 4772)
14:30 - 14:30 | Author(s): M. Oh
- Abstract
Background:
Approximately 15 to 25% of lung adenocarcinomas (LAC) arise in never smokers. They develop through mechanisms distinct from those that affect smokers and are associated with unique histological and molecular characteristics. A significant fraction of LACs in never smokers do not have mutations in known oncogenic driver genes such as EGFR/ALK/KRAS. Furthermore, mutations in oncogenic driver genes appear to be insufficient for tumorigenesis, suggesting that additional alterations are required.
Methods:
To address these issues, we used whole-exome sequencing to comprehensively study 15 LACs from never smokers - seven “triple negative” tumors (with normal EGFR/ALK/KRAS) and eight EGFR-mutant tumors - with the goal of identifying novel mutant genes in these subsets. To identify mutated genes that confer a selective advantage a multistep approach was used to filter variants based on gene expression level, background mutation rate and gene size. Targeted sequencing of 180 genes in the original 15 and an extended panel of 85 tumor/normal pairs validated these alterations and indicated their prevalence in LAC. Sequence data was integrated with copy number and gene expression levels to determine mechanisms, and consequences, of gene disruption. Animal and cell models were used to functionally validate identified genes of interest and explore their role in LAC biology.
Results:
32 unique genes demonstrated significant evidence of conferring a selective advantage including known oncogenes (EGFR/ERBB2/MET) and tumor suppressor genes (p53/RB1/ATM). In addition, RNA-seq revealed fusions involving RET or ROS1 in one tumour each. The variations in MET consisted of truncating and splice-site mutations that we are currently investigating in transgenic mouse models. Pathway analysis indicated frequent mutation in genes implicated in PI3-kinase signaling, RNA splicing and histone modification. Importantly, we identified the hemizygous and homozygous loss of multiple genes from chromosome arm 6q - a genetic locus associated with familial lung cancer susceptibility - including a novel candidate tumor suppressor gene, SHPRH, based on its high frequency of biallelic disruption. SHPRH is an evolutionarily conserved E3-ligase that mediates crucial processes related to DNA repair. We found that SHPRH silencing increased transformation of normal lung cells, increased DNA damage and induced cell cycle changes while SHPRH inhibition sensitized LAC cells to topoisomerase II and PARP inhibitors.
Conclusion:
SHPRH inactivation may induce genetic alterations that cooperate with mutations in driver oncogenes to promote LAC development. Together, this work will expand our understanding of LAC initiation and progression in never smokers and may offer new biomarkers for response to therapy.