High Plus Low Dose Radiation Strategy in Combination with TIGIT and PD1 Blockade to Promote Systemic Antitumor Responses

提吉特 医学 癌症研究 免疫检查点 免疫疗法 封锁 转移 原发性肿瘤 放射治疗 肿瘤微环境 免疫学 联合疗法 CD8型 药理学 肿瘤科 腺癌 效应器 敏化
作者
Hampartsoum B. Barsoumian,Duygu Sezen,Hari Menon,Ahmed I. Younes,Yun Hu,Kewen He,Nahum Puebla‐Osorio,Mark Wasley,Ethan Hsu,Roshal R. Patel,Liangpeng Yang,María Angélica Cortez,James W. Welsh
出处
期刊:Cancers [Multidisciplinary Digital Publishing Institute]
卷期号:14 (1): 221-221 被引量:36
标识
DOI:10.3390/cancers14010221
摘要

Tumors deploy various immune-evasion mechanisms that create a suppressive environment and render effector T-cells exhausted and inactive. Therefore, a rational utilization of checkpoint inhibitors may alleviate exhaustion and may partially restore antitumor functions. However, in high-tumor-burden models, the checkpoint blockade fails to maintain optimal efficacy, and other interventions are necessary to overcome the inhibitory tumor stroma. One such strategy is the use of radiotherapy to reset the tumor microenvironment and maximize systemic antitumor outcomes. In this study, we propose the use of anti-PD1 and anti-TIGIT checkpoint inhibitors in conjunction with our novel RadScopal technique to battle highly metastatic lung adenocarcinoma tumors, bilaterally established in 129Sv/Ev mice, to mimic high-tumor-burden settings. The RadScopal approach is comprised of high-dose radiation directed at primary tumors with low-dose radiation delivered to secondary tumors to improve the outcomes of systemic immunotherapy. Indeed, the triple therapy with RadScopal + anti-TIGIT + anti-PD1 was able to prolong the survival of treated mice and halted the growth of both primary and secondary tumors. Lung metastasis counts were also significantly reduced. In addition, the low-dose radiation component reduced TIGIT receptor (PVR) expression by tumor-associated macrophages and dendritic cells in secondary tumors. Finally, low-dose radiation within triple therapy decreased the percentages of TIGIT+ exhausted T-cells and TIGIT+ regulatory T-cells. Together, our translational approach provides a new treatment alternative for cases refractory to other checkpoints and may bring immunotherapy into a new realm of systemic disease control.
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