Novel engineered IL-2 Nemvaleukin alfa combined with PD1 checkpoint blockade enhances the systemic anti-tumor responses of radiation therapy.

IF 11.4 1区 医学 Q1 ONCOLOGY
Kewen He, Nahum Puebla-Osorio, Hampartsoum B Barsoumian, Duygu Sezen, Zahid Rafiq, Thomas S Riad, Yun Hu, Ailing Huang, Tiffany A Voss, Claudia S Kettlun Leyton, Lily Jae Schuda, Ethan Hsu, Joshua Heiber, Maria-Angelica Cortez, James W Welsh
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引用次数: 0

Abstract

Background: Combining interleukin-2 (IL-2) with radiotherapy (RT) and immune checkpoint blockade (ICB) has emerged as a promising approach to address ICB resistance. However, conventional IL-2 cytokine therapy faces constraints owing to its brief half-life and adverse effects. RDB 1462, the mouse ortholog of Nemvaleukin alfa, is an engineered IL-2 with an intermediate affinity that selectively stimulates antitumor CD8 T and NK cells while limiting regulatory T cell expansion. This study aimed to evaluate the antitumor activity and mechanism of action of the combination of RDB 1462, RT, and anti-PD1 in mouse tumor models.

Methods: Two bilateral lung adenocarcinoma murine models were established using 344SQ-Parental and 344SQ anti-PD1-resistant cell lines. Primary tumors were treated with RT, and secondary tumors were observed for evidence of abscopal effects. We performed immune phenotyping by flow cytometry, analyzed 770 immune-related genes using NanoString, and performed T cell receptor (TCR) repertoire analysis. Serum pro-inflammatory cytokine markers were analyzed by 23-plex kit.

Results: Compared to native IL-2 (RDB 1475), RDB 1462 demonstrated superior systemic antitumoral responses, attributable, at least in part, to augmented levels of CD4 and CD8 T cells with the latter. Our findings reveal substantial reductions in primary and secondary tumor volumes compared to monotherapy controls, with some variability observed among different dosing schedules of RDB 1462 combined with RT. Blood and tumor tissue-based flow cytometric phenotyping reveals an increase in effector memory CD8 and CD4 T cells and a decrease in immunosuppressive cells accompanied by a significant increase in IL-2, IFN-γ, and GM-CSF levels in the combination group. Transcriptomic profiling and TCR sequencing reveal favorable gene expression and T cell repertoire patterns with the dual combination. Furthermore, integrating anti-PD1 therapy with RT and RDB 1462 further reduced primary and secondary tumor volumes, prolonged survival, and decreased lung metastasis. Observations of immune cell profiles indicated that RT with escalating doses of RDB 1462 significantly reduced tumor growth and increased tumor-specific immune cell populations.

Conclusion: The addition of Nemvaleukin therapy may enhance responses to RT alone and in combination with anti-PD1.

新型工程IL-2 Nemvaleukin alfa与PD1检查点阻断相结合,可增强放疗的全身抗肿瘤反应。
背景:将白细胞介素-2(IL-2)与放疗(RT)和免疫检查点阻断(ICB)相结合,已成为解决ICB耐药问题的一种很有前景的方法。然而,传统的IL-2细胞因子疗法因其短暂的半衰期和不良反应而受到限制。RDB 1462是Nemvaleukin alfa的小鼠同源物,它是一种具有中间亲和力的工程化IL-2,可选择性地刺激抗肿瘤CD8 T细胞和NK细胞,同时限制调节性T细胞的扩增。本研究旨在评估RDB 1462、RT和抗PD1联合疗法在小鼠肿瘤模型中的抗肿瘤活性和作用机制:方法:使用 344SQ 亲代细胞系和 344SQ 抗 PD1 细胞系建立了两个双侧肺腺癌小鼠模型。用 RT 治疗原发肿瘤,观察继发肿瘤是否有脱落效应。我们用流式细胞术进行了免疫表型分析,用 NanoString 分析了 770 个免疫相关基因,并进行了 T 细胞受体 (TCR) 重排分析。血清促炎细胞因子标记物通过 23-plex 试剂盒进行分析:结果:与原生IL-2(RDB 1475)相比,RDB 1462表现出更优越的全身抗肿瘤反应,这至少部分归因于后者增强了CD4和CD8 T细胞的水平。我们的研究结果表明,与单药对照组相比,原发性和继发性肿瘤体积大幅缩小,RDB 1462与RT联合治疗的不同给药方案之间存在一定差异。基于血液和肿瘤组织的流式细胞表型分析表明,在联合用药组中,效应记忆CD8和CD4 T细胞增加,免疫抑制细胞减少,同时IL-2、IFN-γ和GM-CSF水平显著增加。转录组学分析和 TCR 测序显示,双重疗法组合具有良好的基因表达和 T 细胞群模式。此外,将抗PD1疗法与RT和RDB 1462结合使用可进一步缩小原发性和继发性肿瘤体积、延长生存期并减少肺转移。对免疫细胞图谱的观察表明,RT与递增剂量的RDB 1462能显著减少肿瘤生长,增加肿瘤特异性免疫细胞群:结论:添加Nemvaleukin疗法可增强对RT单独或与抗PD1联合治疗的反应。
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来源期刊
CiteScore
18.20
自引率
1.80%
发文量
333
审稿时长
1 months
期刊介绍: The Journal of Experimental & Clinical Cancer Research is an esteemed peer-reviewed publication that focuses on cancer research, encompassing everything from fundamental discoveries to practical applications. We welcome submissions that showcase groundbreaking advancements in the field of cancer research, especially those that bridge the gap between laboratory findings and clinical implementation. Our goal is to foster a deeper understanding of cancer, improve prevention and detection strategies, facilitate accurate diagnosis, and enhance treatment options. We are particularly interested in manuscripts that shed light on the mechanisms behind the development and progression of cancer, including metastasis. Additionally, we encourage submissions that explore molecular alterations or biomarkers that can help predict the efficacy of different treatments or identify drug resistance. Translational research related to targeted therapies, personalized medicine, tumor immunotherapy, and innovative approaches applicable to clinical investigations are also of great interest to us. We provide a platform for the dissemination of large-scale molecular characterizations of human tumors and encourage researchers to share their insights, discoveries, and methodologies with the wider scientific community. By publishing high-quality research articles, reviews, and commentaries, the Journal of Experimental & Clinical Cancer Research strives to contribute to the continuous improvement of cancer care and make a meaningful impact on patients' lives.
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