Abstract

Lung cancer (LC) is a leading cause of cancer-related mortality. Although smoking is the major risk factor, ~15% of all cases occur in never-smokers, suggesting that genetic factors play a role in LC predisposition. Indeed, germline mutations in the TP53 gene predispose to multiple cancer types, including LC. To date, few studies compared the somatic and germline mutational profiles of LC cases by smoking status, and none was reported in Brazilians. Whole-exome sequencing (WES) was performed on two pools (seven smokers and six non-smokers) of tumor-derived DNA using the Illumina HiSeq2000 platform. Files from pools were analyzed separately using Ingenuity®Variant AnalysisTM and Mendel,MD. Validation of all candidate variants was performed by Sanger sequencing. Subsequently, validated mutations were analyzed in germline DNA from the same patients and in ethnically matched controls. In addition, a single recurring Brazilian TP53 germline mutation (R337H) was genotyped in 45 non-small-cell lung cancer patients.Four novel germline variants in the ATAD2, AURKA, PTPRD and THBS1 genes were identified exclusively in smoker patients, and four germline missense variants in PLCD1, RAD52, CP and CDC6 genes were identified solely in non-smokers. There were 4/45 (8.9%) germline carriers of the R337H TP53 mutation. In conclusion, the recurring Brazilian TP53 mutation should be genotyped in all non-small-cell lung cancer in Brazil, regardless of smoking status. Distinct pathogenic mutations and novel sequence variants are detected in Brazilian non-small-cell lung cancer patients, by smoking status. The contribution of these sequence variants to LC pathogenesis remains to be further explored.

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