Triptolide induces PANoptosis in macrophages and causes organ injury in mice

IF 6.1 2区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Apoptosis Pub Date : 2023-09-13 DOI:10.1007/s10495-023-01886-6
Hong-Rui Zhang, Ya-Ping Li, Zi-Jian Shi, Qi-Qi Liang, Si-Yuan Chen, Yi-Ping You, Tao Yuan, Rong Xu, Li-Hui Xu, Dong-Yun Ouyang, Qing-Bing Zha, Xian-Hui He
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引用次数: 1

Abstract

Macrophages represent the first lines of innate defense against pathogenic infections and are poised to undergo multiple forms of regulated cell death (RCD) upon infections or toxic stimuli, leading to multiple organ injury. Triptolide, an active compound isolated from Tripterygium wilfordii Hook F., possesses various pharmacological activities including anti-tumor and anti-inflammatory effects, but its applications have been hampered by toxic adverse effects. It remains unknown whether and how triptolide induces different forms of RCD in macrophages. In this study, we showed that triptolide exhibited significant cytotoxicity on cultured macrophages in vitro, which was associated with multiple forms of lytic cell death that could not be fully suppressed by any one specific inhibitor for a single form of RCD. Consistently, triptolide induced the simultaneous activation of pyroptotic, apoptotic and necroptotic hallmarks, which was accompanied by the co-localization of ASC specks respectively with RIPK3 or caspase-8 as well as their interaction with each other, indicating the formation of PANoptosome and thus the induction of PANoptosis. Triptolide-induced PANoptosis was associated with mitochondrial dysfunction and ROS production. PANoptosis was also induced by triptolide in mouse peritoneal macrophages in vivo. Furthermore, triptolide caused kidney and liver injury, which was associated with systemic inflammatory responses and the activation of hallmarks for PANoptosis in vivo. Collectively, our data reveal that triptolide induces PANoptosis in macrophages in vitro and exhibits nephrotoxicity and hepatotoxicity associated with induction of PANoptosis in vivo, suggesting a new avenue to alleviate triptolide’s toxicity by harnessing PANoptosis.

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雷公藤甲素诱导巨噬细胞泛光症并导致小鼠器官损伤。
巨噬细胞是抵抗致病性感染的第一道先天防御线,在感染或毒性刺激时,巨噬细胞会经历多种形式的调节性细胞死亡(RCD),导致多器官损伤。雷公藤甲素是从雷公藤中分离得到的一种活性化合物,具有多种药理活性,包括抗肿瘤和抗炎作用,但其应用受到毒性副作用的阻碍。目前尚不清楚雷公藤内酯醇是否以及如何在巨噬细胞中诱导不同形式的RCD。在这项研究中,我们发现雷公藤内酯醇对体外培养的巨噬细胞表现出显著的细胞毒性,这与多种形式的裂解细胞死亡有关,而任何一种针对单一形式RCD的特异性抑制剂都无法完全抑制裂解细胞死亡。一致地,雷公藤内酯醇诱导了焦下垂、凋亡和坏死标志的同时激活,并伴有ASC斑点分别与RIPK3或胱天蛋白酶-8的共同定位以及它们之间的相互作用,表明泛视小体的形成,从而诱导泛视症。雷公藤甲素诱导的泛视症与线粒体功能障碍和ROS产生有关。雷公藤内酯醇还可在体内诱导小鼠腹腔巨噬细胞泛光症。此外,雷公藤内酯醇引起肾脏和肝脏损伤,这与全身炎症反应和体内泛视症特征的激活有关。总之,我们的数据表明,雷公藤内酯醇在体外诱导巨噬细胞泛光症,并在体内表现出与诱导泛光症相关的肾毒性和肝毒性,这表明了通过利用泛光症减轻雷公藤内酯醇毒性的新途径。
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来源期刊
Apoptosis
Apoptosis 生物-生化与分子生物学
CiteScore
9.10
自引率
4.20%
发文量
85
审稿时长
1 months
期刊介绍: Apoptosis, a monthly international peer-reviewed journal, focuses on the rapid publication of innovative investigations into programmed cell death. The journal aims to stimulate research on the mechanisms and role of apoptosis in various human diseases, such as cancer, autoimmune disease, viral infection, AIDS, cardiovascular disease, neurodegenerative disorders, osteoporosis, and aging. The Editor-In-Chief acknowledges the importance of advancing clinical therapies for apoptosis-related diseases. Apoptosis considers Original Articles, Reviews, Short Communications, Letters to the Editor, and Book Reviews for publication.
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