EML4-ALK fusions drive lung adeno-to-squamous transition through JAK-STAT activation.
Zhen QinMeiting YueShijie TangFeng-Ying WuHonghua SunYuan LiYong-Chang ZhangHiroki IzumiHsin-Yi HuangWanying WangYun XueXinyuan TongShunta MoriTetsuro TakiKoichi GotoYujuan JinFei LiFu-Ming LiYijun GaoZhaoyuan FangYisheng FangLiang HuXiumin YanGuo-Liang XuHaiquan ChenSusumu S KobayashiAndrea VenturaKwok-Kin WongXueliang ZhuLiang ChenShengxiang RenLuo-Nan ChenHongbin JiPublished in: The Journal of experimental medicine (2024)
Human lung adenosquamous cell carcinoma (LUAS), containing both adenomatous and squamous pathologies, exhibits strong cancer plasticity. We find that ALK rearrangement is detectable in 5.1-7.5% of human LUAS, and transgenic expression of EML4-ALK drives lung adenocarcinoma (LUAD) formation initially and squamous transition at late stage. We identify club cells as the main cell-of-origin for squamous transition. Through recapitulating lineage transition in organoid system, we identify JAK-STAT signaling, activated by EML4-ALK phase separation, significantly promotes squamous transition. Integrative study with scRNA-seq and immunostaining identify a plastic cell subpopulation in ALK-rearranged human LUAD showing squamous biomarker expression. Moreover, those relapsed ALK-rearranged LUAD show notable upregulation of squamous biomarkers. Consistently, mouse squamous tumors or LUAD with squamous signature display certain resistance to ALK inhibitor, which can be overcome by combined JAK1/2 inhibitor treatment. This study uncovers strong plasticity of ALK-rearranged tumors in orchestrating phenotypic transition and drug resistance and proposes a potentially effective therapeutic strategy.
Keyphrases
- high grade
- low grade
- advanced non small cell lung cancer
- single cell
- poor prognosis
- endothelial cells
- cell therapy
- epidermal growth factor receptor
- stem cells
- cell proliferation
- acute lymphoblastic leukemia
- acute myeloid leukemia
- induced pluripotent stem cells
- bone marrow
- young adults
- signaling pathway
- binding protein
- multiple myeloma
- papillary thyroid
- lymph node metastasis
- cell fate