TRPM2 deficiency contributes to M2b macrophage polarization via the PI3K/AKT/CREB pathway in murine sepsis.

IF 2.8 4区医学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Innate Immunity Pub Date : 2025-01-01 Epub Date: 2025-05-23 DOI:10.1177/17534259251343377

Yanping Shen, Rana Dhar, Jujun Liu, Shenghui Hong, Huifang Tang, Xiaowei Qian

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引用次数: 0

Abstract

BackgroundPrevious studies suggest that transient receptor potential melastatin 2 (TRPM2) plays a protective role in sepsis by enhancing bacterial clearance. This effect is mediated through the modulation of macrophage phenotypic changes, which strengthen the immune response against infection. However, the specific role and underlying mechanism of TRPM2 in macrophage polarization during sepsis remain unclear.MethodCecal ligation and puncture (CLP) was used to establish a mouse sepsis model, and bone marrow-derived macrophages (BMDMs) and peritoneal macrophages were prepared from C57BL/6 wild-type and TRPM2 knockout (trpm2^-/-) mice. IPI549 was utilized as a specific inhibitor of PI3K. Macrophage polarization, bactericidal ability, and the PI3K/protein kinase B (AKT)/cyclic adenosine monophosphate response element-binding protein signaling pathway were assessed. In addition, survival rate, bacterial burden, lung wet/dry weight ratio, lung and liver injury scores, and cytokine levels were measured in CLP-induced septic mice.ResultsIn lipopolysaccharide (LPS)-stimulated BMDMs, trpm2 deficiency increased the expression of characteristic markers associated with the M2b phenotype, reduced the bactericidal ability, and activated the PI3K/AKT/CREB signaling pathway. Consequently, both trpm2^-/- BMDMs and trpm2^-/- mice exhibited impaired bactericidal clearance during CLP-induced sepsis. Furthermore, IPI549 attenuated TRPM2 deletion-induced M2b polarization and restored the bactericidal function of BMDMs. Notably, IPI549 preconditioning reversed the increased susceptibility of the trpm2^-/- mice to sepsis. The 7-day mortality rate was 92% in trpm2^-/- mice, compared to 42% in IPI549-pretreated trpm2^-/- mice. Moreover, IPI549-treated mice exhibited improved lung wet/dry ratios, reduced lung and liver injury scores, reversed M2b polarization and decreased bacterial load.ConclusionThe PI3K/AKT/CREB pathway mediates the effect of TRPM2 by inhibiting M2b macrophage polarization and promoting bacterial clearance during sepsis.

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在小鼠脓毒症中，TRPM2缺乏通过PI3K/AKT/CREB通路促进M2b巨噬细胞极化。

先前的研究表明，瞬时受体电位美拉他汀2 （TRPM2）通过增强细菌清除在脓毒症中起保护作用。这种作用是通过巨噬细胞表型变化的调节介导的，巨噬细胞表型变化加强了对感染的免疫反应。然而，TRPM2在脓毒症中巨噬细胞极化中的具体作用和机制尚不清楚。方法采用盲肠结扎穿刺法（CLP）建立小鼠脓毒症模型，分别制备C57BL/6野生型和TRPM2敲除（TRPM2 -/-）小鼠骨髓源性巨噬细胞（bmdm）和腹腔巨噬细胞。IPI549被用作PI3K的特异性抑制剂。评估巨噬细胞极化、杀菌能力和PI3K/蛋白激酶B (AKT)/环腺苷单磷酸反应元件结合蛋白信号通路。此外，测定clp诱导的脓毒症小鼠的存活率、细菌负荷、肺干湿比、肺和肝损伤评分以及细胞因子水平。结果在脂多糖（LPS）刺激的BMDMs中，trpm2缺乏增加了与M2b表型相关的特征标记的表达，降低了杀菌能力，激活了PI3K/AKT/CREB信号通路。因此，在clp诱导的脓毒症中，trpm2-/- bmdm和trpm2-/-小鼠都表现出杀灭细菌的能力受损。此外，IPI549可以减弱TRPM2缺失引起的M2b极化，恢复BMDMs的杀菌功能。值得注意的是，IPI549预处理逆转了trpm2-/-小鼠对败血症的易感性增加。trpm2-/-小鼠的7天死亡率为92%，而ipi549预处理的trpm2-/-小鼠的7天死亡率为42%。此外，ipi549处理小鼠表现出改善肺湿/干比，减少肺和肝损伤评分，逆转M2b极化和减少细菌负荷。结论PI3K/AKT/CREB通路通过抑制M2b巨噬细胞极化和促进脓毒症中细菌清除介导TRPM2的作用。

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

Innate Immunity 生物-免疫学

CiteScore

7.20

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Innate Immunity is a highly ranked, peer-reviewed scholarly journal and is the official journal of the International Endotoxin & Innate Immunity Society (IEIIS). The journal welcomes manuscripts from researchers actively working on all aspects of innate immunity including biologically active bacterial, viral, fungal, parasitic, and plant components, as well as relevant cells, their receptors, signaling pathways, and induced mediators. The aim of the Journal is to provide a single, interdisciplinary forum for the dissemination of new information on innate immunity in humans, animals, and plants to researchers. The Journal creates a vehicle for the publication of articles encompassing all areas of research, basic, applied, and clinical. The subject areas of interest include, but are not limited to, research in biochemistry, biophysics, cell biology, chemistry, clinical medicine, immunology, infectious disease, microbiology, molecular biology, and pharmacology.