TFEB and TFE3 cooperate in regulating inorganic arsenic-induced autophagy-lysosome impairment and immuno-dysfunction in primary dendritic cells.

IF 5.3 2区 医学 Q2 CELL BIOLOGY
Guowei Xu, Huaguang Peng, Ran Yao, Yuqing Yang, Bing Li
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Abstract

Arsenic (As) is a prevalent and hazardous environmental toxicant associated with cancer and various health problems, which has been shown suppressive effects on dendritic cells (DCs). Autophagy is essential for the innate and adaptive immune responses of DCs, and the transcription factors TFEB and TFE3 are key regulators of autophagic and lysosomal target genes. However, the detrimental alterations of the autophagy-lysosome pathway in As-exposed DCs and the possible coordinating roles of TFEB and TFE3 in the immune dysfunction of this cell are less understood. In this paper, we found that As exposure significantly impaired lysosomal number, lysosomal acidic environment, and lysosomal membrane permeabilization, which might lead to blocked autophagic flux in cultured DCs. Furthermore, our results confirmed that TFEB or TFE3 knockdown exacerbated the disorders of lysosome and the blockade of autophagic flux in As-exposed DCs, and also enhanced the inhibitory expression of co-stimulatory molecules Cd80 and Cd83; adhesion molecule Icam1; cytokines TNF-α, IL-1β, and IL-6; chemokine receptor Ccr7; and antigen-presenting molecules MHC II and MHC I. By contrast, overexpression of TFEB or TFE3 partially alleviated the above-mentioned impairment of DCs by inorganic As exposure. In conclusion, these findings reveal a previously unappreciated inhibition of lysosome-mediated degradation and damage of lysosomal membrane integrity leading to dysregulated autophagy and impaired immune functions of DCs by arsenicals, and also suggest TFEB and TFE3 as potential therapeutic targets for ameliorating As toxicity.

Abstract Image

TFEB和TFE3合作调节无机砷诱导的原代树突状细胞自噬-溶酶体损伤和免疫功能障碍。
砷(As)是一种普遍存在的有害环境毒物,与癌症和各种健康问题有关,已被证实对树突状细胞(DCs)有抑制作用。自噬对 DCs 的先天性和适应性免疫反应至关重要,而转录因子 TFEB 和 TFE3 是自噬和溶酶体靶基因的关键调控因子。然而,人们对As暴露的DCs中自噬-溶酶体通路的有害改变以及TFEB和TFE3在该细胞免疫功能障碍中可能发挥的协调作用了解较少。在本文中,我们发现 As 暴露会显著损害溶酶体数量、溶酶体酸性环境和溶酶体膜通透性,这可能会导致培养的 DC 自噬通量受阻。此外,我们的研究结果证实,敲除 TFEB 或 TFE3 会加剧砷暴露 DCs 溶酶体的紊乱和自噬通量的受阻,同时还会增强共刺激分子 Cd80 和 Cd83、粘附分子 Icam1、细胞因子 TNF-α、IL-1β 和 IL-6、趋化因子受体 Ccr7 以及抗原递呈分子 MHC II 和 MHC I 的抑制表达。相比之下,过表达 TFEB 或 TFE3 可部分缓解上述无机砷暴露对 DCs 的损害。总之,这些发现揭示了砷对溶酶体介导的降解的抑制和溶酶体膜完整性的破坏,从而导致自噬失调和 DCs 免疫功能受损,同时也提示 TFEB 和 TFE3 是改善砷毒性的潜在治疗靶点。
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
Cell Biology and Toxicology
Cell Biology and Toxicology 生物-毒理学
CiteScore
9.90
自引率
4.90%
发文量
101
审稿时长
>12 weeks
期刊介绍: Cell Biology and Toxicology (CBT) is an international journal focused on clinical and translational research with an emphasis on molecular and cell biology, genetic and epigenetic heterogeneity, drug discovery and development, and molecular pharmacology and toxicology. CBT has a disease-specific scope prioritizing publications on gene and protein-based regulation, intracellular signaling pathway dysfunction, cell type-specific function, and systems in biomedicine in drug discovery and development. CBT publishes original articles with outstanding, innovative and significant findings, important reviews on recent research advances and issues of high current interest, opinion articles of leading edge science, and rapid communication or reports, on molecular mechanisms and therapies in diseases.
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