Division of Radiation Oncology, National Cancer Centre Singapore, Singapore; Oncology Academic Programme, Duke-NUS Medical School, Singapore.
immunoSCAPE Pte Ltd.
Int J Radiat Oncol Biol Phys. 2020 Sep 1;108(1):70-80. doi: 10.1016/j.ijrobp.2020.06.007. Epub 2020 Jun 13.
Improved antitumor responses have been observed in patients after combination radiation therapy (RT) and immune checkpoint blockade (ICB). Whether these clinical responses are linked to the host systemic immune system has not been elucidated.
In this single-institution prospective observational study, peripheral blood was longitudinally collected from 10 patients with metastatic disease who had responded to anti-PD-1/anti-PD-L1 ICB and received RT (8-50 Gy in 1-5 fractions) upon disease progression at the following timepoints: baseline (pre-RT), 1 to 2 weeks post-RT, and post-ICB (cycle 1) on reintroduction post-RT. To thoroughly characterize the interaction between combined RT-ICB and the host immune system, we performed high-dimensional, mass cytometry-based immunophenotyping of circulating lymphocytes using a 40-marker panel addressing lineage, differentiation, activation, trafficking, cytotoxicity, and costimulatory and inhibitory functions. Phenotypic expression of circulating lymphocytes was compared across patients and time points and correlated with post-RT tumor responses.
Foremost, we demonstrated excellent posttreatment clinical responses, including 4 local responses with >50% reduction in radiated tumor size, 1 out-of-field response, and 4 patients who resumed ICB for >1 year. Baseline and post-RT immune states were highly heterogeneous among patients. Despite this interindividual heterogeneity in baseline immune states, we observed a systemic immune reaction to RT-ICB common across patients, histology, and radiation sites; a subset of pre-existing Ki-67+ CD8+ T cells were increased post-RT and further expanded upon reintroduction of ICB post-RT (2.3-fold increase, P = .02). Importantly, RT did not alter the phenotypic profile of these Ki-67+ CD8+ T cells, which was characterized by a distinct activated and differentiated effector phenotype.
Collectively, these findings point toward a sustained reinvigoration of host antitumor immunity after RT-ICB and suggest an expansion in activated Ki-67+ CD8+ T cells as a possible demonstration of this synergy, thereby providing new insights that may support the development of optimal sequencing strategies.
在接受联合放射治疗(RT)和免疫检查点阻断(ICB)的患者中,观察到抗肿瘤反应得到改善。这些临床反应是否与宿主的全身免疫系统有关尚未阐明。
在这项单机构前瞻性观察性研究中,从 10 名转移性疾病患者中纵向采集外周血,这些患者在疾病进展时接受了抗 PD-1/抗 PD-L1 ICB(8-50 Gy,1-5 个分数)和 RT(RT 后再引入时的周期 1):基线(RT 前)、RT 后 1 至 2 周、ICB 后(RT 后再引入时的周期 1)。为了彻底描述联合 RT-ICB 与宿主免疫系统的相互作用,我们使用了一个 40 标志物面板,通过基于高维、质谱流式细胞术的免疫表型分析对循环淋巴细胞进行了分析,该面板涉及谱系、分化、激活、迁移、细胞毒性以及共刺激和抑制功能。比较了患者和时间点之间循环淋巴细胞的表型表达,并与 RT 后肿瘤反应相关。
首先,我们证明了出色的治疗后临床反应,包括 4 例放射肿瘤大小减少>50%的局部反应、1 例场外反应和 4 例患者重新开始 ICB 治疗>1 年。患者之间的基线和 RT 后免疫状态高度异质性。尽管存在个体间的基线免疫状态异质性,但我们观察到一种普遍存在于患者、组织学和放射部位的 RT-ICB 全身免疫反应;一部分预先存在的 Ki-67+CD8+T 细胞在 RT 后增加,并在 RT 后重新引入 ICB 时进一步扩增(增加 2.3 倍,P=0.02)。重要的是,RT 并没有改变这些 Ki-67+CD8+T 细胞的表型特征,其特征是一种独特的激活和分化的效应物表型。
总的来说,这些发现表明 RT-ICB 后宿主抗肿瘤免疫持续增强,并提示激活的 Ki-67+CD8+T 细胞的扩增可能是这种协同作用的一种表现,从而为支持最佳测序策略的发展提供了新的见解。
