Targeting senescence-like fibroblasts radiosensitizes non–small cell lung cancer and reduces radiation-induced pulmonary fibrosis
Jingshu Meng, … , Honglin Jin, Kunyu Yang
Jingshu Meng, … , Honglin Jin, Kunyu Yang
Published December 8, 2021
Citation Information: JCI Insight. 2021;6(23):e146334. https://doi.org/10.1172/jci.insight.146334.
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Research Article Oncology

Targeting senescence-like fibroblasts radiosensitizes non–small cell lung cancer and reduces radiation-induced pulmonary fibrosis

Abstract

Cancer cell radioresistance is the primary cause of the decreased curability of non–small cell lung cancer (NSCLC) observed in patients receiving definitive radiotherapy (RT). Following RT, a set of microenvironmental stress responses is triggered, including cell senescence. However, cell senescence is often ignored in designing effective strategies to resolve cancer cell radioresistance. Herein, we identify the senescence-like characteristics of cancer-associated fibroblasts (CAFs) after RT and clarify the formidable ability of senescence-like CAFs in promoting NSCLC cell proliferation and radioresistance through the JAK/STAT pathway. Specific induction of senescence-like CAF apoptosis using FOXO4-DRI, a FOXO4-p53–interfering peptide, resulted in remarkable effects on radiosensitizing NSCLC cells in vitro and in vivo. In addition, in this study, we also uncovered an obvious therapeutic effect of FOXO4-DRI on alleviating radiation-induced pulmonary fibrosis (RIPF) by targeting senescence-like fibroblasts in vivo. In conclusion, by targeting senescence, we offer a strategy that simultaneously decreases radioresistance of NSCLC and the incidence of RIPF.

Authors

Jingshu Meng, Yan Li, Chao Wan, Yajie Sun, Xiaomeng Dai, Jing Huang, Yan Hu, Yanan Gao, Bian Wu, Zhanjie Zhang, Ke Jiang, Shuangbing Xu, Jonathan F. Lovell, Yu Hu, Gang Wu, Honglin Jin, Kunyu Yang

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Figure 5

FOXO4-DRI alleviates RIPF.

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FOXO4-DRI alleviates RIPF. (A) Representative Western blot for the senes...
(A) Representative Western blot for the senescence-associated gene expression changes of SL-HFL1 and SL-HFL1 incubated with FOXO4-DRI (20 μM). (B) Western blot showing analysis demonstrates the fibrotic gene expression changes of SL-HFL1 or CO-HFL1, and SL-HFL1 or CO-HFL1 incubated with FOXO4-DRI. HFL1 incubated with TGF-β1 (20 ng/mL) used as positive control. (C) Schematic of animal experiment. (D) Photographs of mice in different groups as indicated. (E) Western blot analysis examining collagen 1 expression in mouse lung tissues and (F) quantification of changes of expression levels based on gray value. Mean ± SEM (n = 6–7 mice per group), analyzed by 1-way ANOVA. (G) Representative images of histological changes in mouse lungs evaluated by Masson′s trichrome staining (Scale bar: 100 μm), and semi-quantitative image analysis of collagen content (blue areas) in lungs. Mean ± SEM (Original magnification, 400×; 3 microscopic fields per mouse to evaluate the averaged collagen content; n = 6–7 mice per group), analyzed by 1-way ANOVA. *P < 0.05; ***P < 0.001. SL-HFL1, senescence-like HFL1. CO-HFL1, HFL1 cocultured with senescence-like HFL1.