MCL-1 gains occur with high frequency in lung adenocarcinoma and can be targeted therapeutically.
Enkhtsetseg MunkhbaatarMichelle DietzenDeepti AgrawalMartina AntonMoritz JesinghausMelanie BoxbergNicole PfarrPidassa BidolaSebastian UhrigUlrike HöckendorfAnna-Lena MeinhardtAdam WahidaIrina HeidRickmer F BrarenRitu MishraArne WarthThomas MuleyPatrina S P PohXin WangStefan FröhlingKatja SteigerJulia Slotta-HuspeninaMartijn van GriensvenFranz PfeifferSebastian LangeRoland RadMagda SpellaGeorgios T StathopoulosJuergen RulandFlorian BassermannWilko WeichertAndreas StrasserCaterina BrancaMathias F HeikenwälderCharles SwantonNicholas McGranahanPhilipp J JostPublished in: Nature communications (2020)
Evasion of programmed cell death represents a critical form of oncogene addiction in cancer cells. Understanding the molecular mechanisms underpinning cancer cell survival despite the oncogenic stress could provide a molecular basis for potential therapeutic interventions. Here we explore the role of pro-survival genes in cancer cell integrity during clonal evolution in non-small cell lung cancer (NSCLC). We identify gains of MCL-1 at high frequency in multiple independent NSCLC cohorts, occurring both clonally and subclonally. Clonal loss of functional TP53 is significantly associated with subclonal gains of MCL-1. In mice, tumour progression is delayed upon pharmacologic or genetic inhibition of MCL-1. These findings reveal that MCL-1 gains occur with high frequency in lung adenocarcinoma and can be targeted therapeutically.