Tumor integrin-targeted glucose oxidase enzyme promotes ROS-mediated cell death that combines with interferon alpha therapy for tumor control.

IF 5.3 2区 医学 Q1 ONCOLOGY
Jordan A Stinson, Allison Sheen, Brianna M Lax, Grace N Yang, Lauren Duhamel, Luciano Santollani, Elizabeth Fink, Joseph Palmeri, K Dane Wittrup
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引用次数: 0

Abstract

While heightened intratumoral levels of reactive oxygen species (ROS) are typically associated with a suppressive tumor microenvironment, under certain conditions ROS contribute to tumor elimination. Treatment approaches, including some chemotherapy and radiation protocols, increase cancer cell ROS levels that influence their mechanism of cell death and subsequent recognition by the immune system. Furthermore, activated myeloid cells rapidly generate ROS upon encounter with pathogens or infected cells to eliminate disease, and recently, this effector function has been noted in cancer contexts as well. Collectively, ROS-induced cancer cell death may help initiate adaptive anti-tumor immune responses that could synergize with current approved immunotherapies, for improved control of solid tumors. In this work, we explore the use of glucose oxidase, an enzyme which produces hydrogen peroxide, a type of ROS, to therapeutically mimic the endogenous oxidative burst from myeloid cells to promote antigen generation within the tumor microenvironment. We engineer the enzyme to target pan-tumor expressed integrins both as a tumor-agnostic therapeutic approach, but also as a strategy to prolong local enzyme activity following intratumoral administration. We found the targeted enzyme potently induced cancer cell death and enhanced cross-presentation by dendritic cells in vitro, and further combined with interferon alpha for long-term tumor control in murine MC38 tumors in vivo. Optimizing the single-dose administration of this enzyme overcomes limitations with immunogenicity noted for other pro-oxidant enzyme approaches. Overall, our results suggest ROS-induced cell death can be harnessed for tumor control, and highlight the potential use of designed enzyme therapies alongside immunotherapy against cancer.

肿瘤整合素靶向葡萄糖氧化酶可促进 ROS 介导的细胞死亡,与干扰素 alpha疗法相结合可控制肿瘤。
虽然肿瘤内活性氧(ROS)水平的升高通常与抑制性肿瘤微环境有关,但在某些情况下,ROS 也有助于肿瘤的消除。包括某些化疗和放疗方案在内的治疗方法会增加癌细胞的活性氧水平,从而影响其细胞死亡机制和免疫系统的识别。此外,活化的骨髓细胞在遇到病原体或感染细胞时会迅速产生 ROS,以消除疾病。总而言之,ROS 诱导的癌细胞死亡可能有助于启动适应性抗肿瘤免疫反应,从而与目前已获批准的免疫疗法协同作用,改善对实体瘤的控制。在这项研究中,我们探索利用葡萄糖氧化酶(一种产生过氧化氢(ROS 的一种)的酶)来治疗性地模拟髓系细胞的内源性氧化爆发,从而促进肿瘤微环境中抗原的生成。我们对这种酶进行了工程化改造,以靶向泛肿瘤表达的整合素,既作为一种肿瘤诊断治疗方法,也作为一种在瘤内给药后延长局部酶活性的策略。我们发现,这种靶向酶在体外能有效诱导癌细胞死亡并增强树突状细胞的交叉呈递,在体内与α干扰素结合还能长期控制小鼠MC38肿瘤。优化这种酶的单剂量给药克服了其他促氧化酶方法的免疫原性限制。总之,我们的研究结果表明,可以利用 ROS 诱导的细胞死亡来控制肿瘤,并强调了设计的酶疗法与抗癌免疫疗法的潜在用途。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
11.20
自引率
1.80%
发文量
331
审稿时长
3 months
期刊介绍: Molecular Cancer Therapeutics will focus on basic research that has implications for cancer therapeutics in the following areas: Experimental Cancer Therapeutics, Identification of Molecular Targets, Targets for Chemoprevention, New Models, Cancer Chemistry and Drug Discovery, Molecular and Cellular Pharmacology, Molecular Classification of Tumors, and Bioinformatics and Computational Molecular Biology. The journal provides a publication forum for these emerging disciplines that is focused specifically on cancer research. Papers are stringently reviewed and only those that report results of novel, timely, and significant research and meet high standards of scientific merit will be accepted for publication.
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