Dihydroartemisinin restores the immunogenicity and enhances the anticancer immunosurveillance of cisplatin by activating the PERK/eIF2α pathway.

IF 6.1 2区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Cell and Bioscience Pub Date : 2024-08-01 DOI:10.1186/s13578-024-01254-0
Yumei Li, Pei Ma, Jingxia Li, Feng Wu, Mengfei Guo, E Zhou, Siwei Song, Sufei Wang, Shuai Zhang, Yang Jin
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Abstract

Background: Immunosurveillance is pivotal in the effectiveness of anticancer therapies and tumor control. The ineffectiveness of cisplatin in activating the immunosurveillance is attributed to its lack of adjuvanticity resulting from its inability to stimulate endoplasmic reticulum stress. Dihydroartemisinin demonstrates the anti-tumor effects through various mechanisms, including the activation of the endoplasmic reticulum stress. This study aimed to develop a novel strategy to enhance the immunogenicity of dying tumor cells by combining cisplatin with dihydroartemisinin, thereby triggering effective anti-tumor immunosurveillance and improving the efficacy of cisplatin in clinical practice.

Methods: Lewis lung carcinoma (LLC) and CT26 colon cancer cell lines and subcutaneous tumor models were used in this study. The importance of immunosurveillance was validated in both immunocompetent and immunodeficient mouse models. The ability of dihydroartemisinin and cisplatin therapy to induce immunogenic cell death and tumor growth control in vivo was validated by prophylactic tumor vaccination and therapeutic tumor models. The underlying mechanism was elucidated through the pharmaceutical or genetic intervention of the PERK/eIF2α pathway in vitro and in vivo.

Results: Dihydroartemisinin enhanced the generation of reactive oxygen species in cisplatin-treated LLC and CT26 cancer cells. The combination treatment of dihydroartemisinin with cisplatin promoted cell death and ensured an optimal release of damage-associated molecular patterns from dying cancer cells, promoting the phagocytosis of dendritic cells. In the tumor vaccination model, we confirmed that dihydroartemisinin plus cisplatin treatment induced immunogenic cell death. Utilizing immunocompetent and immunodeficient mouse models, we further demonstrated that the combination treatment suppressed the tumor growth of CT26 colon cancer and LLC lung cancer, leading to an improved prognosis through the restoration of cytotoxic T lymphocyte responses and reinstatement of anti-cancer immunosurveillance in vivo. Mechanistically, dihydroartemisinin restored the immunogenicity of cisplatin by activating the adjuvanticity of damage-associated molecular patterns, such as calreticulin exposure, through the PERK/eIF2α pathway. Additionally, the inhibition of eIF2α phosphorylation attenuated the anti-tumor efficiency of C + D in vivo.

Conclusions: We highlighted that dihydroartemisinin acts as an immunogenic cell death rescuer for cisplatin, activating anticancer immunosurveillance in a PERK/eIF2α-dependent manner and offering a strategy to enhance the anti-tumor efficacy of cisplatin in clinical practice.

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双氢青蒿素通过激活 PERK/eIF2α 通路恢复顺铂的免疫原性并增强其抗癌免疫监视能力。
背景:免疫监视对抗癌疗法的有效性和肿瘤控制至关重要。顺铂在激活免疫监视方面效果不佳,其原因是顺铂无法刺激内质网应激,因而缺乏辅助作用。双氢青蒿素通过包括激活内质网应激在内的多种机制显示出抗肿瘤作用。本研究旨在开发一种新策略,通过顺铂与双氢青蒿素的结合,增强垂死肿瘤细胞的免疫原性,从而引发有效的抗肿瘤免疫监视,提高顺铂在临床上的疗效:方法:本研究使用了路易斯肺癌(LLC)和 CT26 结肠癌细胞系和皮下肿瘤模型。免疫监视的重要性在免疫功能健全和免疫功能缺陷的小鼠模型中都得到了验证。通过预防性肿瘤疫苗接种和治疗性肿瘤模型,验证了双氢青蒿素和顺铂疗法在体内诱导免疫原性细胞死亡和控制肿瘤生长的能力。通过对体外和体内 PERK/eIF2α 通路的药物或基因干预,阐明了其基本机制:结果:双氢青蒿素增强了顺铂处理的LLC和CT26癌细胞中活性氧的生成。双氢青蒿素与顺铂联合治疗可促进细胞死亡,并确保濒死癌细胞释放最佳的损伤相关分子模式,促进树突状细胞的吞噬作用。在肿瘤疫苗接种模型中,我们证实双氢青蒿素加顺铂治疗可诱导免疫原性细胞死亡。利用免疫功能健全和免疫功能缺陷的小鼠模型,我们进一步证实了联合治疗可抑制 CT26 结肠癌和 LLC 肺癌的肿瘤生长,并通过恢复细胞毒性 T 淋巴细胞反应和体内抗癌免疫监视功能改善预后。从机理上讲,双氢青蒿素通过 PERK/eIF2α 通路激活损伤相关分子模式(如钙网素暴露)的辅助作用,从而恢复顺铂的免疫原性。此外,抑制eIF2α磷酸化会降低C + D在体内的抗肿瘤效率:我们强调,双氢青蒿素是顺铂的免疫细胞死亡解救剂,能以 PERK/eIF2α 依赖性方式激活抗癌免疫监视,为临床实践中提高顺铂的抗肿瘤疗效提供了一种策略。
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来源期刊
Cell and Bioscience
Cell and Bioscience BIOCHEMISTRY & MOLECULAR BIOLOGY-
CiteScore
10.70
自引率
0.00%
发文量
187
审稿时长
>12 weeks
期刊介绍: Cell and Bioscience, the official journal of the Society of Chinese Bioscientists in America, is an open access, peer-reviewed journal that encompasses all areas of life science research.
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