Combining multi-mode thermal therapy with IL-6 and IL-17A neutralization amplifies antitumor immunity to facilitate long-term survival in LLC1-bearing mice

Author:

Zheng Jiamin,Zou Jincheng,Lou Yue,Wang Shicheng,Zhang Zelu,Wang Junjun,Du Peishan,Zhu Yongxin,You Jiaqi,Yao Yichen,Hao Yuankai,Zhang Aili,Liu Ping

Abstract

AbstractNon-small cell lung cancer (NSCLC) is known for rapid development and chronic inflammation-induced immunosuppression. IL-6 and IL-17A are the essential cytokines that facilitate NSCLC progression and myeloid-derived suppressive cell (MDSC)-mediated evasion. IL-6 or IL-17A targeting, especially IL-6, shown outstanding efficacy in patient NSCLC controlling, but failed to completely eradicate tumor. The local tumor multi-mode thermal therapy developed in our prior research was demonstrated to stimulate systemic and durable tumor-specific immune response thereby promoting long-term tumor-free survival of mice and prolong the progression-free survival of patients, although the therapeutic efficacy was still affected by high-level preoperative MDSCs. To further improve the efficacy, in this study, IL-6 and IL-17A neutralization were combined with multi-mode thermal therapy in mouse LLC1 NSCLC model. Study revealed that combined with single cytokine neutralization only prolonged the survival time while triple combination therapy efficiently improved the survival rate. Additionally, triple combination therapy reduced the accumulation of MDSCs but promoted their maturation with strengthened activation and function of myeloid cells, thereby triggering a Th1-dominant-CD4+ T cell-response and enhancing the malignant cell-killing capacity of immune cells. Our study highlights the extraordinary efficacy of combining multi-mode thermal therapy with IL-6 and IL-17A neutralization, revealing a new strategy for refractory NSCLC patients. Graphical Abstract

Funder

Key Technologies Research and Development Program of China

National Natural Science Foundation of China

Shanghai Science and Technology Commission of Shanghai Municipality

Publisher

Springer Science and Business Media LLC

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