抑制 PTRF 可减轻盲肠结扎穿刺术诱导的小鼠多微生物脓毒症。

Suppression of PTRF alleviates the polymicrobial sepsis induced by cecal ligation and puncture in mice.

机构信息

Division of Pulmonary and Critical Care, Department of Medicine, Brigham and Women's Hospital, Harvard Medical School, Boston, Massachusetts.

出版信息

J Infect Dis. 2013 Dec 1;208(11):1803-12. doi: 10.1093/infdis/jit364. Epub 2013 Aug 1.

DOI:10.1093/infdis/jit364

PMID:23908488

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3814834/

Abstract

BACKGROUND

Sepsis and sepsis-associated organ failure are devastating conditions. Understanding the detailed cellular/molecular mechanisms involved in sepsis should lead to the identification of novel therapeutic targets.

METHODS

Cecal ligation and puncture (CLP) was used as a polymicrobial sepsis model in vivo to determine mortality and end-organ damage. Macrophages were adopted as the cellular model in vitro for mechanistic studies.

RESULTS

PTRF+/- mice survived longer and suffered less organ damage after CLP. Reductions in nitric oxide (NO) and iNOS biosynthesis were observed in plasma, macrophages, and vital organs in the PTRF+/- mice. Using an acute sepsis model after CLP, we found that iNOS-/- mice had a comparable level of survival as the PTRF+/- mice. Similarly, polymerase I transcript release factor (PTRF) deficiency resulted in decreased iNOS and NO/ROS production in macrophages in vitro. Mechanistically, lipopolysaccharide (LPS) enhanced the co-localization and interaction between PTRF and TLR4 in lipid rafts. Deletion of PTRF blocked formation of the TLR4/Myd88 complex after LPS. Consistent with this, lack of PTRF impaired the TLR4 signaling, as shown by the decreased p-JNK, p-ERK, and p-p38, which are upstream factors involved in iNOS transcription.

CONCLUSION

PTRF is a crucial regulator of TLR4 signaling in the development of sepsis.

摘要

背景

脓毒症和脓毒症相关的器官衰竭是毁灭性的疾病。了解脓毒症相关的详细细胞/分子机制，应能确定新的治疗靶点。

方法

采用盲肠结扎穿刺（CLP）法建立多微生物脓毒症模型，检测死亡率和终末器官损伤；采用巨噬细胞作为体外细胞模型进行机制研究。

结果

PTRF+/- 小鼠在 CLP 后存活时间更长，器官损伤更小。PTRF+/- 小鼠的血浆、巨噬细胞和重要器官中的一氧化氮（NO）和诱导型一氧化氮合酶（iNOS）生物合成减少。在 CLP 后的急性脓毒症模型中，我们发现 iNOS-/- 小鼠的存活率与 PTRF+/- 小鼠相当。同样，在体外，缺失聚合酶 I 转录释放因子（PTRF）导致巨噬细胞中 iNOS 和 NO/ROS 的产生减少。从机制上看，脂多糖（LPS）增强了 PTRF 和 TLR4 在脂筏中的共定位和相互作用。缺失 PTRF 阻断了 LPS 后 TLR4/Myd88 复合物的形成。同样，缺乏 PTRF 削弱了 TLR4 信号，表现为 iNOS 转录的上游因子 p-JNK、p-ERK 和 p-p38 减少。

结论

PTRF 是 TLR4 信号在脓毒症发展过程中的关键调节因子。

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