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| Item Type: | Preprint |
|---|---|
| Title: | Oncogene inactivation-induced senescence facilitates tumor relapse |
| Creators Name: | Schmitt, P., Hönig, K., Norcia, M.T., Nogueira, M.F., Flore, V., Vesperinas, I.S., Villoro-Agud, M., Peng, L., Safyürek, Z., Tariq, M., Milojkovic, A., Anders, K., Schröck, E., Sauer, S., Uyar, B., Akalin, A., Willimsky, G., Haas, S., Martínez-Reyes, I. and Blankenstein, T. |
| Abstract: | Oncogene-directed therapies can induce profound tumor regression in oncogene-addicted cancers such as BRAF-mutant melanoma and KRAS-driven pancreatic cancer, but their long-term benefit is often limited by resistance and early relapse. The mechanisms that allow residual cells to adapt, persist in a dormant state, and eventually fuel recurrence remain poorly understood. Here, we show that oncogene inactivation rapidly induces hallmark features of senescence together with a pro-inflammatory senescence-associated secretory phenotype (SASP). In vivo, oncogene inactivation-induced senescence (OIIS) predisposed tumors to relapse, characterized by polyploidy, chromosomal instability, and acquisition of alternative oncogenic pathways such as Mdm2 upregulation. Tumor microenvironment profiling by spectral flow cytometry revealed that relapse was associated with neovascularization and a shift from an immune-activated to an immunosuppressive milieu, indicating that senescent cells remodel their niche to promote regrowth. Importantly, OIIS features were also observed in human BRAFV600E melanoma cells treated with vemurafenib, confirming the clinical relevance of our findings. Together, our findings establish OIIS as a double-edged process: it initially restrains tumor growth but simultaneously creates conditions that favor recurrence. By defining the genetic, metabolic, cytogenetic, and microenvironmental hallmarks of OIIS, our study highlights adaptations to oncogene deprivation that limit the durability of targeted therapies. |
| Keywords: | Animals, Mice |
| Source: | bioRxiv |
| Publisher: | Cold Spring Harbor Laboratory Press |
| Article Number: | 2024.07.13.603369 |
| Date: | 5 March 2026 |
| Official Publication: | https://doi.org/10.1101/2024.07.13.603369 |
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