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Cancer Cells Upregulate Tau to Gain Resistance to DNA Damaging Agents

Thomas Rico, Marine Denéchaud, Raphaëlle Caillierez, Thomas Comptdaer, Éric Adriaenssens, Luc Buée, Bruno Lefebvre

2022Cancers10 citationsDOIOpen Access PDF

Abstract

Recent reports suggested a role for microtubules in double-strand-DNA break repair. We herein investigated the role of the microtubule-associated protein Tau in radio- and chemotherapy. Noticeably, a lowered expression of Tau in breast cancer cell lines resulted in a significant decrease in mouse-xenograft breast tumor volume after doxorubicin or X-ray treatments. Furthermore, the knockdown of Tau impaired the classical nonhomologous end-joining pathway and led to an improved cellular response to both bleomycin and X-rays. Investigating the mechanism of Tau's protective effect, we found that one of the main mediators of response to double-stranded breaks in DNA, the tumor suppressor p53-binding protein 1 (53BP1), is sequestered in the cytoplasm as a consequence of Tau downregulation. We demonstrated that Tau allows 53BP1 to translocate to the nucleus in response to DNA damage by chaperoning microtubule protein trafficking. Moreover, Tau knockdown chemo-sensitized cancer cells to drugs forming DNA adducts, such as cisplatin and oxaliplatin, and further suggested a general role of Tau in regulating the nuclear trafficking of DNA repair proteins. Altogether, these results suggest that Tau expression in cancer cells may be of interest as a molecular marker for response to DNA-damaging anti-cancer agents. Clinically targeting Tau could sensitize tumors to DNA-damaging treatments.

Topics & Concepts

Downregulation and upregulationCancerCancer researchDNADNA damageMedicineBiologyGeneticsGeneDNA Repair MechanismsCancer-related Molecular PathwaysMicrotubule and mitosis dynamics
Cancer Cells Upregulate Tau to Gain Resistance to DNA Damaging Agents | Litcius