Tryptanthrin suppresses multiple inflammasome activation to regulate NASH progression by targeting ASC protein

炎症体 NLRC4型 目标2 吡喃结构域 免疫沉淀 化学 细胞生物学 信号转导衔接蛋白 生物化学 生物 半胱氨酸蛋白酶1 信号转导 受体 基因
作者
Lutong Ren,Huijie Yang,Hongbo Wang,Shuanglin Qin,Xiaoyan Zhan,Hui Li,Ziying Wei,Zhaofang Bai,Qiang Li,Tingting Liu,Wei Shi,Jia Zhao,Zhiyong Li,Lutong Ren,Guang Xu,Jun Zhao
出处
期刊:Phytomedicine [Elsevier]
卷期号:131: 155758-155758
标识
DOI:10.1016/j.phymed.2024.155758
摘要

The adaptor protein apoptosis-associated speck-like protein (ASC) containing a caspase recruitment domain (CARD) can be activated through pyrin domain (PYD) interactions between sensors and ASC, and through CARD interactions between caspase-1 and ASC. Although the majority of ternary inflammasome complexes depend on ASC, drugs targeting ASC protein remain scarce. After screening natural compounds from Isatidis Radixin, we found that tryptanthrin (TPR) could inhibit NLRP3-induced IL-1β and caspase-1 production, but the underlying anti-inflammatory mechanisms remain to be elucidated. The purpose of this study was to determine the impact of TPR on the NLRP3, NLRC4, and AIM2 inflammasomes and the underlying mechanisms. Additionally, the efficacy of TPR was analysed in the further course of methionine- and choline-deficient (MCD)–induced NASH and lipopolysaccharide (LPS)–induced sepsis models of mice. In vitro studies used bone marrow-derived macrophages to assess the anti-inflammatory activity of TPR, and the techniques included western blot, testing of intracellular K+ and Ca2+, immunofluorescence, enzyme-linked immunosorbent assay (ELISA), co-immunoprecipitation, ASC oligomerization assay, surface plasmon resonance (SPR), and molecular docking. We used LPS-induced sepsis models and MCD-induced NASH models in vivo to evaluate the effectiveness of TPR in inhibiting inflammatory diseases. Our observations suggested that TPR could inhibit NLRP3, NLRC4, and AIM2 inflammasome activation. As shown in a mouse model of inflammatory diseases caused by MCD-induced NASH and LPS-induced sepsis, TPR significantly alleviated the progression of diseases. TPR interrupted the interactions between ASC and NLRP3/NLRC4/AIM2 in the co-immunoprecipitation experiment, and stable binding of TPR to ASC was also evident in SPR experiments. The underlying mechanisms of anti-inflammatory activities of TPR might be associated with targeting ASC, in particular, PYD domain of ASC. In general, the requirement for ASC in multiple inflammasome complexes makes TPR, as a novel broad-spectrum inflammasome inhibitor, potentially useful for treating a wide range of multifactorial inflammasome-related diseases.
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