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The evolution of lung adenocarcinoma precursors is associated with chromosomal instability and transition from innate to adaptive immune response/evasion.

Xin HuBo ZhuNatalie I VokesJunya FujimotoFrank R Rojas AlvarezSimon HeekeAndre L MoreiraLuisa Maren Solis SotoCara L HaymakerVamsidhar VelchetiDaniel H StermanHarvey I PassChao ChengJiun-Kae Jack LeeJianhua ZhangZhubo WeiJia WuXiuning LiEdwin Justin OstrinIakovos ToumazisDon L GibbonsDan SuJunya FukuokaMara B AntonoffDavid E GerberChenyang LiHumam KadaraLinghua WangMark M DavisJohn Victor HeymachSamir M HanashIgnacio WistubaSteven M DubinettLudmil AlexandrovScott LippmanAvrum SpiraP Andrew FutrealAlexandre ReubenJianjun Zhang
Published in: Research square (2024)
Studying lung adenocarcinoma (LUAD) early carcinogenesis is challenging, primarily due to the lack of LUAD precursors specimens. We amassed multi-omics data from 213 LUAD and LUAD precursors to identify molecular features underlying LUAD precancer evolution. We observed progressively increasing mutations, chromosomal aberrations, whole genome doubling and genomic instability from precancer to invasive LUAD, indicating aggravating chromosomal instability (CIN). Telomere shortening, a crucial genomic alteration linked to CIN, emerged at precancer stage. Moreover, later-stage lesions demonstrated increasing cancer stemness and decreasing alveolar identity, suggesting epithelial de-differentiation during early LUAD carcinogenesis. The innate immune cells progressively diminished from precancer to invasive LUAD, concomitant with a gradual recruitment of adaptive immune cells (except CD8 + and gamma-delta T cells that decreased in later stages) and upregulation of numerous immune checkpoints, suggesting LUAD precancer evolution is associated with a shift from innate to adaptive immune response and immune evasion mediated by various mechanisms.
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