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ATDC binds to KEAP1 to drive NRF2-mediated tumorigenesis and chemoresistance in pancreatic cancer.

Genes & development (2021-01-16)
Vinee Purohit, Lidong Wang, Huibin Yang, Jiufeng Li, Gina M Ney, Erica R Gumkowski, Akash J Vaidya, Annie Wang, Amit Bhardwaj, Ende Zhao, Igor Dolgalev, Andrea Zamperone, Ethan V Abel, Marina Pasca Di Magliano, Howard C Crawford, Daniel Diolaiti, Thales Y Papagiannakopoulos, Costas A Lyssiotis, Diane M Simeone
RESUMEN

Pancreatic ductal adenocarcinoma is a lethal disease characterized by late diagnosis, propensity for early metastasis and resistance to chemotherapy. Little is known about the mechanisms that drive innate therapeutic resistance in pancreatic cancer. The ataxia-telangiectasia group D-associated gene (ATDC) is overexpressed in pancreatic cancer and promotes tumor growth and metastasis. Our study reveals that increased ATDC levels protect cancer cells from reactive oxygen species (ROS) via stabilization of nuclear factor erythroid 2-related factor 2 (NRF2). Mechanistically, ATDC binds to Kelch-like ECH-associated protein 1 (KEAP1), the principal regulator of NRF2 degradation, and thereby prevents degradation of NRF2 resulting in activation of a NRF2-dependent transcriptional program, reduced intracellular ROS and enhanced chemoresistance. Our findings define a novel role of ATDC in regulating redox balance and chemotherapeutic resistance by modulating NRF2 activity.

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