Monitoring Glutathione Content of the Endoplasmic Reticulum under Scrap Leather-Induced Endoplasmic Reticulum Stress via an Endoplasmic Reticulum-Targeted Two-Photon Fluorescent Probe

IF 6.7 1区化学 Q1 CHEMISTRY, ANALYTICAL

Analytical Chemistry Pub Date : 2024-10-29 DOI:10.1021/acs.analchem.4c0415710.1021/acs.analchem.4c04157

Xinjian Song*, Xumei Wang, Yan Wang, Yiqian Hao, Chenchen Li, Li Chai, Haixian Ren*, Jianbin Chen, Wei Hu* and Tony D. James*,

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引用次数: 0

Abstract

Maintaining tissue homeostasis necessitates the coordinated efforts of various cell types to regulate inflammation. Endoplasmic reticulum (ER) stress, a hallmark of inflammation, exacerbates tissue pathology in various human diseases. Glutathione (GSH), a pivotal regulator of cellular redox balance, controls disulfide bond formation in the ER, thereby shielding cells from oxidative stress. In this study, we developed a two-photon fluorescent probe, ER-GSH, with specific ER targeting and demonstrated its high sensitivity and rapid response to GSH. Experiments conducted on BV2 cells and a mice model of neuroinflammation induced by scrap leather revealed that inflammatory reactions led to ER stress and a substantial reduction in GSH levels. Notably, the anti-inflammatory drug NS-398 effectively inhibited cell inflammation and ER stress by maintaining GSH levels. These findings underscore the potential therapeutic significance of modulating GSH levels to alleviate the impact of neuroinflammation.

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通过内质网靶向双光子荧光探针监测废皮革诱导的内质网压力下的内质网谷胱甘肽含量

要维持组织的稳态，就必须协调各种细胞类型来调节炎症。内质网（ER）应激是炎症的标志之一，会加剧各种人类疾病的组织病理变化。谷胱甘肽（GSH）是细胞氧化还原平衡的关键调节因子，它能控制内质网中二硫键的形成，从而保护细胞免受氧化应激。在这项研究中，我们开发了一种具有特异性ER靶向性的双光子荧光探针ER-GSH，并证明了它对GSH的高灵敏度和快速反应能力。在 BV2 细胞和废皮革诱导的神经炎症小鼠模型上进行的实验表明，炎症反应导致了 ER 应激和 GSH 水平的大幅降低。值得注意的是，抗炎药物 NS-398 通过维持 GSH 水平，有效抑制了细胞炎症和 ER 压力。这些发现强调了调节 GSH 水平以减轻神经炎症影响的潜在治疗意义。

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

Analytical Chemistry 化学-分析化学

CiteScore

12.10

自引率

12.20%

发文量

1949

审稿时长

1.4 months

期刊介绍： Analytical Chemistry, a peer-reviewed research journal, focuses on disseminating new and original knowledge across all branches of analytical chemistry. Fundamental articles may explore general principles of chemical measurement science and need not directly address existing or potential analytical methodology. They can be entirely theoretical or report experimental results. Contributions may cover various phases of analytical operations, including sampling, bioanalysis, electrochemistry, mass spectrometry, microscale and nanoscale systems, environmental analysis, separations, spectroscopy, chemical reactions and selectivity, instrumentation, imaging, surface analysis, and data processing. Papers discussing known analytical methods should present a significant, original application of the method, a notable improvement, or results on an important analyte.