纳米药物增强抗肿瘤免疫通过细胞焦亡和 cGAS-STING 激活增强三阴性乳腺癌治疗

Nanodrug Augmenting Antitumor Immunity for Enhanced TNBC Therapy via Pyroptosis and cGAS-STING Activation.

机构信息

PCFM Lab of Ministry of Education, School of Materials Science and Engineering, Sun Yat-sen University, Guangzhou 510275, China.

Department of Radiology, The Sixth Affiliated Hospital, Sun Yat-sen University, Guangzhou, 510655, Guangdong, China.

出版信息

Nano Lett. 2023 Jun 14;23(11):5083-5091. doi: 10.1021/acs.nanolett.3c01008. Epub 2023 May 23.

DOI:10.1021/acs.nanolett.3c01008

PMID:37220198

Abstract

Pyroptosis is a proinflammatory form of programmed cell death that results in the release of cellular contents and activation of immune responses. However, GSDME (a pyroptosis-executed protein) is suppressed in many cancers. Herein, we constructed a nanoliposome (GM@LR) for codelivering the GSDME-expressing plasmid and manganese carbonyl (MnCO) into TNBC cells. MnCO generated Mn and carbon monoxide (CO) in the presence of HO. The CO-activated caspase-3, which cleaved the expressed GSDME, converting apoptosis to pyroptosis in 4T1 cells. In addition, Mn promoted maturation of dendritic cells (DCs) by the activation of STING signaling pathway. The increased proportion of intratumoral mature DCs brought about massive infiltration of cytotoxic lymphocytes, leading to a robust immune response. Besides, Mn could be applied for magnetic resonance imaging (MRI)-guided metastasis detection. Taken together, our study showed that GM@LR nanodrug could effectively inhibit tumor growth via pyroptosis and STING activation combined immunotherapy.

摘要

细胞焦亡是一种促炎形式的程序性细胞死亡，导致细胞内容物的释放和免疫反应的激活。然而，在许多癌症中 GSDME（细胞焦亡执行蛋白）受到抑制。在此，我们构建了一种载 GSDME 表达质粒和羰基锰（MnCO）的纳米脂质体（GM@LR），将其导入三阴性乳腺癌（TNBC）细胞。MnCO 在 HO 存在下生成 Mn 和一氧化碳（CO）。CO 激活了 caspase-3，将表达的 GSDME 切割，将凋亡转化为 4T1 细胞中的细胞焦亡。此外，Mn 通过 STING 信号通路的激活促进树突状细胞（DC）的成熟。肿瘤内成熟 DC 的比例增加导致细胞毒性淋巴细胞的大量浸润，从而引发强烈的免疫反应。此外，Mn 可用于磁共振成像（MRI）引导的转移检测。综上所述，我们的研究表明，GM@LR 纳米药物通过细胞焦亡和 STING 激活联合免疫疗法可有效抑制肿瘤生长。

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纳米药物增强抗肿瘤免疫通过细胞焦亡和 cGAS-STING 激活增强三阴性乳腺癌治疗

Nanodrug Augmenting Antitumor Immunity for Enhanced TNBC Therapy via Pyroptosis and cGAS-STING Activation.

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