Luminol-conjugated cyclodextrin biological nanoparticles for the treatment of severe burn-induced intestinal barrier disruption.

IF 6.3 1区医学 Q1 DERMATOLOGY Burns & Trauma Pub Date : 2024-03-03 eCollection Date: 2024-01-01 DOI:10.1093/burnst/tkad054

Yajun Song, Yang Li, Wengang Hu, Feng Li, Hao Sheng, Chibing Huang, Xin Gou, Jingming Hou, Ji Zheng, Ya Xiao

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Abstract

Background: The breakdown of intestinal barrier integrity occurs after severe burn injury and is responsible for the subsequent reactions of inflammation and oxidative stress. A new protective strategy for the intestinal barrier is urgently needed due to the limitations of the traditional methods. Recently, the application of nanoparticles has become one of the promising therapies for many inflammation-related diseases or oxidative damage. Herein, we developed a new anti-inflammatory and antioxidant nanoparticle named luminol-conjugated cyclodextrin (LCD) and aimed to evaluate its protective effects in severe burn-induced intestinal injury.

Methods: First, LCD nanoparticles, engineered with covalent conjugation between luminol and β-cyclodextrin (β-CD), were synthesized and examined. Then a mouse burn model was successfully established before the mouse body weight, intestinal histopathological manifestation, permeability, tight junction (TJ) expression and pro-inflammatory cytokines were determined in different groups. The proliferation, apoptosis, migration and reactive oxygen species (ROS) of intestinal epithelial cells (IECs) were assessed. Intraepithelial lymphocytes (IELs) were isolated and cultured for analysis by flow cytometry.

Results: LCD nanoparticle treatment significantly relieved the symptoms of burn-induced intestinal injury in the mouse model, including body weight loss and intestinal permeability abnormalities. Moreover, LCD nanoparticles remarkably recovered the mechanical barrier of the intestine after severe burn, renewed TJ structures, promoted IEC proliferation and migration, and inhibited IEC apoptosis. Mechanistically, LCD nanoparticles dramatically alleviated pro-inflammation factors (tumor necrosis factor-α, IL-17A) and ROS accumulation, which could be highly involved in intestinal barrier disruption. Furthermore, an increase in IL-17A and the proportion of IL-17A⁺Vγ4⁺ γδ T subtype cells was also observed in vitro in LPS-treated Vγ4⁺ γδ T cells, but the use of LCD nanoparticles suppressed this increase.

Conclusions: Taken together, these findings demonstrate that LCD nanoparticles have the protective ability to ameliorate intestinal barrier disruption and provide a therapeutic intervention for burn-induced intestinal injury.

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用于治疗严重烧伤引起的肠屏障破坏的鲁米诺共轭环糊精生物纳米粒子。

背景：严重烧伤后会破坏肠道屏障的完整性，并导致随后的炎症和氧化应激反应。由于传统方法的局限性，迫切需要一种新的肠道屏障保护策略。最近，纳米粒子的应用已成为治疗许多炎症相关疾病或氧化损伤的有前途的疗法之一。在此，我们开发了一种新的抗炎和抗氧化纳米粒子，命名为发光酚共轭环糊精（LCD），并旨在评估其在严重烧伤诱导的肠道损伤中的保护作用：首先，合成并研究了发光酚与β-环糊精（β-CD）共价结合的LCD纳米粒子。在成功建立小鼠烧伤模型后，测定了不同组小鼠的体重、肠道组织病理学表现、通透性、紧密连接（TJ）表达和促炎细胞因子。评估了肠上皮细胞（IECs）的增殖、凋亡、迁移和活性氧（ROS）。分离并培养上皮内淋巴细胞（IELs），用流式细胞术进行分析：结果：LCD 纳米粒子处理明显缓解了小鼠模型烧伤引起的肠道损伤症状，包括体重下降和肠道通透性异常。此外，LCD纳米颗粒还能明显恢复严重烧伤后肠道的机械屏障，更新TJ结构，促进IEC增殖和迁移，抑制IEC凋亡。从机理上讲，LCD 纳米粒子能显著缓解促炎因子（肿瘤坏死因子-α、IL-17A）和 ROS 的积累，而这些因子可能与肠道屏障的破坏密切相关。此外，在体外观察到经 LPS 处理的 Vγ4+ γδ T 细胞中，IL-17A 和 IL-17A+Vγ4+ γδ T 亚型细胞的比例增加，但 LCD 纳米颗粒的使用抑制了这种增加：综上所述，这些研究结果表明，LCD 纳米粒子具有改善肠屏障破坏的保护能力，可为烧伤引起的肠损伤提供治疗干预。

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

Burns & Trauma 医学-皮肤病学

CiteScore

8.40

自引率

9.40%

发文量

186

审稿时长

6 weeks

期刊介绍： The first open access journal in the field of burns and trauma injury in the Asia-Pacific region, Burns & Trauma publishes the latest developments in basic, clinical and translational research in the field. With a special focus on prevention, clinical treatment and basic research, the journal welcomes submissions in various aspects of biomaterials, tissue engineering, stem cells, critical care, immunobiology, skin transplantation, and the prevention and regeneration of burns and trauma injuries. With an expert Editorial Board and a team of dedicated scientific editors, the journal enjoys a large readership and is supported by Southwest Hospital, which covers authors'' article processing charges.