在小鼠模型中暴露于挥发性铁素体抑制剂 TEMPO,可减少皮肤缺血再灌注损伤进展为压疮的形成

IF 4.6
Mai Ishikawa , Akihiko Uchiyama , Keiji Kosaka , Mayu Nishio , Sachiko Ogino , Yoko Yokoyama , Ryoko Torii , Ryoko Akai , Takao Iwawaki , Seiji Torii , Sei-ichiro Motegi
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引用次数: 0

摘要

背景缺血再灌注(I/R)损伤诱导的氧化应激是压疮形成的关键发病因素。铁变态反应是一种铁依赖性程序性细胞死亡,它将各种疾病中的氧化应激和炎症联系在一起。最近的研究表明,抑制铁变态反应对 I/R 损伤有保护作用。方法在野生型小鼠中进行了皮肤 I/R 损伤实验和组织病理学研究,无论是否暴露于挥发性铁氧化酶抑制剂 TEMPO(2,2,6,6-四甲基哌啶-1-氧)。结果用 TEMPO 抑制铁变态反应可显著减少皮肤 I/R 损伤后溃疡的形成。TEMPO治疗逆转了I/R皮肤部位波动的铁变态反应标志物,如GPX4、ACSL4和4-HNE的表达。抑制铁变态反应可减少细胞凋亡和CD3+浸润淋巴细胞,并改善I/R皮肤部位的血管。抑制铁氧化还能抑制 Nrf2 激活的增强。在体外,TEMPO 可明显改善小鼠成纤维细胞的铁蛋白沉着和 RSL3 刺激铁蛋白沉着相关基因表达的激活。结论皮肤 I/R 损伤诱导的铁变态反应可能会促进细胞死亡、血管损伤、炎症细胞浸润和氧化应激。用 TEMPO 抑制铁蛋白沉积可能作为皮肤 I/R 损伤的新型治疗药物,具有潜在的临床应用价值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exposure to volatile ferroptosis inhibitor, TEMPO, reduced cutaneous ischemia-reperfusion injury progression to pressure ulcer formation in a mouse model

Background

Ischemia– reperfusion (I/R) injury-induced oxidative stress is a key factor in the pathogenesis of pressure ulcer formation. Ferroptosis is an iron-dependent programmed cell death that connects oxidative stress and inflammation in various diseases. Recent studies revealed the protective effect of inhibition of ferroptosis in I/R injury. However, the role of ferroptosis in cutaneous I/R injury remains elusive.

Objective

To assess the role of ferroptosis in the progression of cutaneous I/R injury.

Methods

Cutaneous I/R injury experiments and histopathological studies were performed in wild-type mice with or without exposure to volatile ferroptosis inhibitor, TEMPO (2,2,6,6-Tetramethylpiperidine-1-oxyl). The suppressive effects of TEMPO on ferroptosis inducing cell death and oxidative stress were examined in vitro.

Results

Inhibition of ferroptosis with TEMPO significantly reduced ulcer formation after cutaneous I/R injury. Fluctuated ferroptosis markers, such as GPX4, ACSL4, and 4-HNE expression in the I/R skin site, were reversed by TEMPO treatment. Inhibition of ferroptosis reduced apoptosis, CD3+ infiltrating lymphocytes, and improved vascularity in the I/R skin site. Inhibition of ferroptosis also suppressed the enhancement of Nrf2 activation. In vitro, ferroptosis and the activation of ferroptosis-related gene expression by RSL3 stimulation were markedly ameliorated by TEMPO treatment in mouse fibroblasts. Inhibiting ferroptosis also suppressed the elevation of the mRNA levels of NOX2 and HO-1 caused by ferroptosis.

Conclusion

Cutaneous I/R injury-induced ferroptosis likely promotes cell death, vascular loss, infiltration of inflammatory cells, and oxidative stress. The inhibition of ferroptosis with TEMPO might have potential clinical application as novel therapeutic agent for cutaneous I/R injury.

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