Portal de Periódicos da CAPES

Comprehensive molecular profiling of lung adenocarcinoma

2014; Nature Portfolio; Volume: 511; Issue: 7511 Linguagem: Inglês

10.1038/nature13385

1476-4687

RNA modifications and cancer

Adenocarcinoma of the lung is the leading cause of cancer death worldwide. Here we report molecular profiling of 230 resected lung adenocarcinomas using messenger RNA, microRNA and DNA sequencing integrated with copy number, methylation and proteomic analyses. High rates of somatic mutation were seen (mean 8.9 mutations per megabase). Eighteen genes were statistically significantly mutated, including RIT1 activating mutations and newly described loss-of-function MGA mutations which are mutually exclusive with focal MYC amplification. EGFR mutations were more frequent in female patients, whereas mutations in RBM10 were more common in males. Aberrations in NF1, MET, ERBB2 and RIT1 occurred in 13% of cases and were enriched in samples otherwise lacking an activated oncogene, suggesting a driver role for these events in certain tumours. DNA and mRNA sequence from the same tumour highlighted splicing alterations driven by somatic genomic changes, including exon 14 skipping in MET mRNA in 4% of cases. MAPK and PI(3)K pathway activity, when measured at the protein level, was explained by known mutations in only a fraction of cases, suggesting additional, unexplained mechanisms of pathway activation. These data establish a foundation for classification and further investigations of lung adenocarcinoma molecular pathogenesis. An integrated transcriptome, genome, methylome and proteome analysis of over 200 lung adenocarcinomas reveals high rates of somatic mutations, 18 statistically significantly mutated genes including RIT1 and MGA, splicing changes, and alterations in MAPK and PI(3)K pathway activity. This report from The Cancer Genome Atlas Research Network presents molecular profiling of 230 resected untreated lung adenocarcinomas. Integrated analyses of transcriptome, genome, methylome and proteome collectively identify high rates of somatic mutation, significantly mutated genes including RIT1 and MGA, splicing alterations driven by somatic genomic changes, and point to as yet unidentified lesions that alter MAPK and PI(3)K pathway activity. These data establish a foundation for classification and further investigations of the leading cause of cancer death worldwide.