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Inhibition of FGF receptor blocks adaptive resistance to RET inhibition in CCDC6-RET-rearranged thyroid cancer.

The Journal of experimental medicine (2022-05-06)
Renuka Raman, Jacques A Villefranc, Timothy M Ullmann, Jessica Thiesmeyer, Viviana Anelli, Jun Yao, James R Hurley, Chantal Pauli, Rohan Bareja, Kenneth Wha Eng, Princesca Dorsaint, David C Wilkes, Shaham Beg, Sarah Kudman, Reid Shaw, Michael Churchill, Adnan Ahmed, Laurel Keefer, Ian Misner, Donna Nichol, Naveen Gumpeni, Theresa Scognamiglio, Mark A Rubin, Carla Grandori, James Patrick Solomon, Wei Song, Juan Miguel Mosquera, Noah Dephoure, Andrea Sboner, Olivier Elemento, Yariv Houvras
RÉSUMÉ

Genetic alterations in RET lead to activation of ERK and AKT signaling and are associated with hereditary and sporadic thyroid cancer and lung cancer. Highly selective RET inhibitors have recently entered clinical use after demonstrating efficacy in treating patients with diverse tumor types harboring RET gene rearrangements or activating mutations. In order to understand resistance mechanisms arising after treatment with RET inhibitors, we performed a comprehensive molecular and genomic analysis of a patient with RET-rearranged thyroid cancer. Using a combination of drug screening and proteomic and biochemical profiling, we identified an adaptive resistance to RET inhibitors that reactivates ERK signaling within hours of drug exposure. We found that activation of FGFR signaling is a mechanism of adaptive resistance to RET inhibitors that activates ERK signaling. Combined inhibition of FGFR and RET prevented the development of adaptive resistance to RET inhibitors, reduced cell viability, and decreased tumor growth in cellular and animal models of CCDC6-RET-rearranged thyroid cancer.

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TPC-1 Human Papillary Thyroid Carcinoma Cell line, TPC-1 human papillary thyroid carcinoma cell line is a highly characterized model for thyroid cancer research.