致癌驱动基因的谱系特异性不耐受限制了组织学转化。
Lineage-specific intolerance to oncogenic drivers restricts histological transformation.
机构信息
Meyer Cancer Center, Weill Cornell Medicine, New York, NY.
Department of Physiology, Biophysics, and Systems Biology, Weill Cornell Medicine, New York, NY.
出版信息
Science. 2024 Feb 9;383(6683):eadj1415. doi: 10.1126/science.adj1415.
Abstract
Lung adenocarcinoma (LUAD) and small cell lung cancer (SCLC) are thought to originate from different epithelial cell types in the lung. Intriguingly, LUAD can histologically transform into SCLC after treatment with targeted therapies. In this study, we designed models to follow the conversion of LUAD to SCLC and found that the barrier to histological transformation converges on tolerance to Myc, which we implicate as a lineage-specific driver of the pulmonary neuroendocrine cell. Histological transformations are frequently accompanied by activation of the Akt pathway. Manipulating this pathway permitted tolerance to Myc as an oncogenic driver, producing rare, stem-like cells that transcriptionally resemble the pulmonary basal lineage. These findings suggest that histological transformation may require the plasticity inherent to the basal stem cell, enabling tolerance to previously incompatible oncogenic driver programs.
摘要
肺腺癌 (LUAD) 和小细胞肺癌 (SCLC) 被认为起源于肺部不同的上皮细胞类型。有趣的是,LUAD 在接受靶向治疗后可以组织学转化为 SCLC。在这项研究中,我们设计了模型来跟踪 LUAD 向 SCLC 的转化,发现组织学转化的障碍集中在对 Myc 的耐受上,我们将其作为肺神经内分泌细胞的谱系特异性驱动因素。组织学转化通常伴随着 Akt 通路的激活。操纵这条通路可以使 Myc 作为致癌驱动因素耐受,产生罕见的、具有干细胞样特征的细胞,其转录特征类似于肺基底谱系。这些发现表明,组织学转化可能需要基底干细胞固有的可塑性,使它们能够耐受以前不兼容的致癌驱动程序。
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