FTO inhibition enhances the therapeutic index of radiation therapy in head and neck cancer
Lu Ji, Leighton Pu, Jinglong Wang, Hongbin Cao, Stavros Melemenidis, Subarna Sinha, Li Guan, Eyiwunmi E. Laseinde, Rie von Eyben, Sara A. Richter, Jin-Min Nam, Christina Kong, Kerriann M. Casey, Edward E. Graves, Richard L. Frock, Quynh Thu Le, Erinn B. Rankin
Lu Ji, Leighton Pu, Jinglong Wang, Hongbin Cao, Stavros Melemenidis, Subarna Sinha, Li Guan, Eyiwunmi E. Laseinde, Rie von Eyben, Sara A. Richter, Jin-Min Nam, Christina Kong, Kerriann M. Casey, Edward E. Graves, Richard L. Frock, Quynh Thu Le, Erinn B. Rankin
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Research Article Oncology Therapeutics

FTO inhibition enhances the therapeutic index of radiation therapy in head and neck cancer

Abstract

Despite aggressive chemoradiation treatment, the overall survival rate for patients with HPV– head and neck squamous cell carcinoma (HNSCC) remains poor, highlighting the urgent need for more effective drug-radiotherapy combinations to improve the therapeutic index of radiation therapy (RT). The fat mass and obesity-related gene (FTO) is emerging as a promising cancer therapeutic target; however, its role in the RT response has been underexplored. In our study, we found that both genetic and pharmacologic inhibition of FTO enhanced the efficacy of RT in human and mouse HNSCC tumor xenografts. Mechanistically, inhibition of FTO improved the RT response in HPV– HNSCC cells, which was associated with increased DNA damage, reduced efficiency of homology directed repair, and decreased formation of RAD51 homolog 1 (RAD51) foci. Importantly, pharmacologic inhibition of FTO did not exacerbate radiation-induced oral mucositis, a significant normal-tissue toxicity associated with HNSCC RT. In summary, our results indicate a role for FTO in regulating homologous recombination while identifying FTO as a potential therapeutic target to enhance the therapeutic index of RT in HPV– HNSCC treatment.

Authors

Lu Ji, Leighton Pu, Jinglong Wang, Hongbin Cao, Stavros Melemenidis, Subarna Sinha, Li Guan, Eyiwunmi E. Laseinde, Rie von Eyben, Sara A. Richter, Jin-Min Nam, Christina Kong, Kerriann M. Casey, Edward E. Graves, Richard L. Frock, Quynh Thu Le, Erinn B. Rankin

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Figure 3

FTO inhibition enhances the radiosensitivity of HPV HNSCC cells.

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FTO inhibition enhances the radiosensitivity of HPV– HNSCC cells. (A–D) ...
(AD) Genetic inhibition of FTO enhances the radiation response on human HPV HNSCC cells. (A and C) Western blot analysis of FTO expression in doxycycline inducible control (shScr) and FTO knockdown (shFTO#1 and shFTO#2) UM-SCC-22B (A) and SCC1(C) cells 3 days after doxycycline treatment (2 μg/mL). β-Actin as used as a sample protein loading control. In A, the β-actin blot was set up in parallel and was run contemporaneously. (B and D) The effect of FTO knockdown on UM-SCC-22B (B) and SCC1 (D) clonogenic survival and radiation sensitivity (0, 2, 4, and 6 Gy; left panel). The surviving fraction is normalized to the corresponding control (0 Gy) and statistically compared with the control (shScr) group at 4 Gy (right panel, n = 3). (EH) Pharmacologic inhibition of FTO enhances the radiation response on human HPV HNSCC cells. (E and G) Total m6A RNA analysis in FB23-2 treated UM-SCC-22B (E) and SCC1 (G) cells 24 hours after FB23-2 treatment (5 μM). (F and H) The effect of FB23-2 treatment on UM-SCC-22B (F) and SCC1 (H) clonogenic survival and radiation sensitivity (0, 2, 4, and 6 Gy; left panel). The surviving fraction is normalized to its control (0 Gy) and statistically compared with the control (vehicle) group at 4 Gy (right panel, n = 3). Data are presented as mean ± SEM; *P < 0.05, **P < 0.01, ****P < 0.0001 as determined by 2-tailed Student’s t test (EH) and 2-way ANOVA (B and D).