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Corrigendum
Open Access | 
10.1172/JCI191305
Nonclassical action of Ku70 promotes Treg-suppressive function through a FOXP3-dependent mechanism in lung adenocarcinoma
Qianru Huang, Na Tian, Jianfeng Zhang, Shiyang Song, Hao Cheng, Xinnan Liu, Wenle Zhang, Youqiong Ye, Yanhua Du, Xueyu Dai, Rui Liang, Dan Li, Sheng-Ming Dai, Chuan Wang, Zhi Chen, Qianjun Zhou, and Bin Li
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Published February 17, 2025 - More info
J Clin Invest. 2025;135(4):e191305. https://doi.org/10.1172/JCI191305.
© 2025 Huang et al. This work is licensed under the Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
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Abstract
Ku70, a DNA repair protein, binds to the damaged DNA ends and orchestrates the recruitment of other proteins to facilitate repair of DNA double-strand breaks. Besides its essential role in DNA repair, several studies have highlighted nonclassical functions of Ku70 in cellular processes. However, its function in immune homeostasis and antitumor immunity remains unknown. Here, we discovered a marked association between elevated Ku70 expression and unfavorable prognosis in lung adenocarcinoma, focusing specifically on increased Ku70 levels in tumor-infiltrated Tregs. Using a lung-colonizing tumor model in mice with Treg-specific Ku70 deficiency, we demonstrated that deletion of Ku70 in Tregs led to a stronger antitumor response and slower tumor growth due to impaired immune-suppressive capacity of Tregs. Furthermore, we confirmed that Ku70 played a critical role in sustaining the suppressive function of human Tregs. We found that Ku70 bound to forkhead box protein P3 (FOXP3) and occupied FOXP3-bound genomic sites to support its transcriptional activities. These findings not only unveil a nonhomologous end joining–independent (NHEJ-independent) role of Ku70 crucial for Treg-suppressive function, but also underscore the potential of targeting Ku70 as an effective strategy in cancer therapy, aiming to both restrain cancer cells and enhance pulmonary antitumor immunity.
Authors
Qianru Huang, Na Tian, Jianfeng Zhang, Shiyang Song, Hao Cheng, Xinnan Liu, Wenle Zhang, Youqiong Ye, Yanhua Du, Xueyu Dai, Rui Liang, Dan Li, Sheng-Ming Dai, Chuan Wang, Zhi Chen, Qianjun Zhou, Bin Li
Original citation: J Clin Invest. 2024;134(23):e178079. https://doi.org/10.1172/JCI178079
Citation for this corrigendum: J Clin Invest. 2025;135(4):e191305. https://doi.org/10.1172/JCI191305
In Figure 6E, the labeling for transfected cells was incorrect. In addition, Figure 6H was not labeled. The correct figure is shown below. The HTML and PDF versions of the paper have been updated.
The authors regret the errors.
Copyright © 2025 American Society for Clinical Investigation
ISSN: 0021-9738 (print), 1558-8238 (online)