posted on 2024-09-26, 10:20authored byFelipe S Rodrigues, Adam Karoutas, Stefanie Ruhland, Nicolas Rabas, Tatiana Rizou, Stefania Di Blasio, Rute MM Ferreira, Victoria L Bridgeman, Robert Goldstone, Miriam L Sopena, Joo-Hyeon Lee, Luigi Ombrato, Ilaria Malanchi
A key step for metastatic outgrowth involves the generation of a deeply altered microenvironment (niche) that supports the malignant behavior of cancer cells. The complexity of the metastatic niche has posed a significant challenge in elucidating the underlying programs driving its origin. Here, by focusing on early stages of breast cancer metastasis to the lung in mice, we describe a cancer-dependent chromatin remodeling and activation of developmental programs in alveolar type 2 (AT2) cells within the niche. We show that metastatic cells can prime AT2 cells into a reprogrammed multilineage state. In turn, this cancer-induced reprogramming of AT2 cells promoted stem-like features in cancer cells and enhanced their initiation capacity. In conclusion, we propose the concept of "reflected stemness" as an early phenomenon during metastatic niche initiation, wherein metastatic cells reprogram the local tissue into a stem-like state that enhances intrinsic cancer-initiating potential, creating a positive feedback loop where tumorigenic programs are amplified.
Funding
Crick (Grant ID: CC1107, Grant title: STP Bioinformatics & Biostatistics)
Crick (Grant ID: CC2051, Grant title: Malanchi CC2051)