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2型志贺毒素加重G1/S期细胞周期阻滞,在肾脏高渗条件下介导非半胱天冬酶依赖性细胞死亡。

Shiga Toxin Type 2 Aggravates G1/S Phase Cell Cycle Arrest, Mediating Caspase-Independent Cell Death under Hyperosmotic Conditions in the Kidney.

作者信息

Park So-Hyeon, Lee Kyung-Soo, Park Jun Young, Kim Dae-Soo, Cho Hyun-Soo, Noh Ji Heon, Kim Chang-Ung, Lee Moo-Seung

机构信息

Environmental Diseases Research Center, Korea Research Institute of Bioscience and Biotechnology, Daejeon 34141, Republic of Korea.

Department of Biochemistry, Chungnam National University, Daejeon 34134, Republic of Korea.

出版信息

J Microbiol Biotechnol. 2025 Sep 5;35:e2508015. doi: 10.4014/jmb.2505.08015.

DOI:10.4014/jmb.2505.08015
PMID:40915655
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12420956/
Abstract

Shiga toxin (Stx) is a virulence factor produced by serotype 1 and Stx-producing (STEC). It causes severe renal damage, leading to hemolytic uremic syndrome (HUS). The main target organ of Stx, the kidney, plays a role in maintaining water homeostasis in the body by increasing an osmotic gradient from the cortex to the medulla. However, the activity of Stxs under kidney hyperosmotic conditions is not well understood. In this study, to investigate the Stx effects under hyperosmotic interstitial fluid, kidney epithelial cells and 3D spheroids were treated with Stx2 and NaCl. Stx2 treatment without NaCl addition increased ER stress, mitochondrial damage, reactive oxygen species, and cleaved caspase 3, 7, while co-treatment with Stx2 and NaCl showed reduced ER-mediated apoptosis. Significantly, NaCl treatment increased HSP70 expression, leading to reduced ER stress by Stx2. Furthermore, cell toxicity by Stx2 and NaCl treatment was increased by the HSP70 inhibitor. Contrariwise, DNA repair gene expression level was decreased, and G1/S phase cell cycle arrest was aggravated after being treated with Stx2 and NaCl than the Stx2 group. Importantly, lactate dehydrogenase and early/late apoptotic cell death were promoted by Stx2 under NaCl treatment. Changes in Stx2 activity at NaCl conditions were confirmed through transcriptome analysis. In conclusion, a hyperosmotic environment changes the cell death mechanism and accelerates the cytotoxicity of Stx, which suggests the importance of studying environmental factors from a pathological perspective and a therapeutic perspective at HUS.

摘要

志贺毒素(Stx)是由1型血清型和产志贺毒素大肠杆菌(STEC)产生的一种毒力因子。它会导致严重的肾脏损伤,进而引发溶血性尿毒症综合征(HUS)。Stx的主要靶器官是肾脏,肾脏通过增加从皮质到髓质的渗透梯度,在维持体内水平衡方面发挥作用。然而,在肾脏高渗条件下Stx的活性尚未得到充分了解。在本研究中,为了探究高渗间质液条件下Stx的作用,用Stx2和氯化钠处理肾上皮细胞和3D球体。在不添加氯化钠的情况下用Stx2处理会增加内质网应激、线粒体损伤、活性氧物种以及裂解的半胱天冬酶3、7,而同时用Stx2和氯化钠处理则显示内质网介导的细胞凋亡减少。值得注意的是,氯化钠处理会增加热休克蛋白70(HSP70)的表达,从而减轻Stx2引起的内质网应激。此外,HSP70抑制剂会增加Stx2和氯化钠处理引起的细胞毒性。相反,与Stx2组相比,用Stx2和氯化钠处理后DNA修复基因表达水平降低,G1/S期细胞周期阻滞加剧。重要的是,在氯化钠处理条件下,Stx2会促进乳酸脱氢酶释放以及早期/晚期凋亡性细胞死亡。通过转录组分析证实了氯化钠条件下Stx2活性的变化。总之,高渗环境会改变细胞死亡机制并加速Stx的细胞毒性,这表明从病理和治疗角度研究环境因素在HUS中的重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f831/12420956/c61b664e90d7/jmb-35-e2508015-f7.jpg
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