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一段具有 AAAG 重复序列的寡脱氧核苷酸通过抑制干扰素调节因子 5 通路显著减轻烧伤诱导的全身炎症反应。

An oligodeoxynucleotide with AAAG repeats significantly attenuates burn-induced systemic inflammatory responses via inhibiting interferon regulatory factor 5 pathway.

机构信息

Department of Molecular Biology in College of Basic Medical Sciences and Institute of Pediatrics in First Hospital, Norman Bethune Health Science Center, Jilin University, Changchun, 130021, China.

Department of Respiratory Medicine, The First Hospital of Jilin University, Norman Bethune Health Science Center, Jilin University, Changchun, 130021, China.

出版信息

Mol Med. 2017 Sep;23:166-176. doi: 10.2119/molmed.2016.00243. Epub 2017 Jun 14.

DOI:10.2119/molmed.2016.00243
PMID:28620671
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5583065/
Abstract

Previously, we showed that an oligodeoxynucleotide with AAAG repeats (AAAG ODN) rescued mice from fatal acute lung injury (ALI) induced by influenza virus and inhibited production of tumor necrosis factor-α (TNF-α) in the injured lungs. However, the underlying mechanisms remain to be elucidated. Upon the bioinformatic analysis revealing that the AAAG ODN is consensus to interferon regulatory factor 5 (IRF5) binding site in the cis-regulatory elements of proinflammatory cytokines, we tried to explore whether the AAAG ODN could attenuate burn injury induced systemic inflammatory responses via inhibiting IRF5 pathway. Using the mouse model with sterile systemic inflammation induced by burn injury, we found that AAAG ODN prolonged the life span of the mice, decreased the expression of IRF5 at injured skin, reduced the production of TNF-α and IL-6 in blood and injured skin, and attenuated the ALI. Furthermore, AAAG ODN could bind IRF5 and inhibit the nuclear translocation of IRF5 in THP-1 cells. The data suggested that the AAAG ODN could act as a cytoplasmic decoy capable of interfering the function of IRF5, and be developed as a drug candidate for the treatment of inflammatory diseases.

摘要

先前,我们发现一种具有 AAAG 重复序列的寡核苷酸(AAAG ODN)可以挽救由流感病毒引起的致命性急性肺损伤(ALI)的小鼠,并抑制损伤肺中肿瘤坏死因子-α(TNF-α)的产生。然而,其潜在机制仍有待阐明。通过生物信息学分析揭示,AAAG ODN 与前炎症细胞因子顺式调控元件中的干扰素调节因子 5(IRF5)结合位点一致,我们试图探讨 AAAG ODN 是否可以通过抑制 IRF5 途径来减轻烧伤引起的全身性炎症反应。使用由烧伤引起的无菌全身炎症的小鼠模型,我们发现 AAAG ODN 延长了小鼠的存活时间,降低了损伤皮肤中 IRF5 的表达,减少了血液和损伤皮肤中 TNF-α和 IL-6 的产生,并减轻了 ALI。此外,AAAG ODN 可以与 IRF5 结合并抑制 THP-1 细胞中 IRF5 的核转位。数据表明,AAAG ODN 可以作为一种胞质诱饵,干扰 IRF5 的功能,并可开发为治疗炎症性疾病的药物候选物。

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