Atrial natriuretic peptide protects against gut barrier injury through PLC-γ1/ROS feedback loop in rats following traumatic hemorrhagic shock

IF 0.7 4区医学

European Journal of Inflammation Pub Date : 2024-03-20 DOI:10.1177/1721727x241240948

Shou-Yin Jiang, Tai-Wen Rao, Ye-Hua Shen, Xiao-Gang Zhao

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Abstract

IntroductionThe mechanisms underlying the protective effects of atrial natriuretic peptide (ANP) on the gut barrier during traumatic hemorrhagic shock (THS) remain elusive. This study aimed to explore the potential role of ANP in safeguarding against gut barrier dysfunction after THS, focusing on the PLC-γ1/ROS feedback loop.MethodsIn our THS rat model, we randomly allocated male Sprague-Dawley rats to receive intravenous ANP with or without a concurrent NADPH oxidase/p38 MAPK inhibitor during the shock phase. After 24 h, we assessed circulatory and jejunal ANP, ROS, intestinal tight junction proteins, and apoptosis to evaluate the effects of ANP on the gut barrier and its interplay with intestinal ANP and ROS. Rat small intestinal epithelial cells (IECs) were also treated with ANP and subjected to hypoxia/re-oxygenation injury, with or without PI3K/PLC inhibition, to elucidate the relationship between ANP/ROS signaling and PLC-γ1. Furthermore, we modulated PLC-γ1 expression in these IECs to examine its impact on ROS and ANP production.ResultsIntravenous ANP administration at 0.025 μg/kg/min during THS significantly increased intestinal ANP and ROS levels at 24 h. ANP treatment enhanced the expression of intestinal tight junction proteins and reduced IEC apoptosis. Inhibition of circulatory ROS diminished intestinal ANP levels, while suppression of circulatory ANP led to a reduction in intestinal ROS. Decreasing PLC-γ1 expression in hypoxia/re-oxygenation-treated IECs resulted in lower ROS and ANP levels, whereas augmenting PLC-γ1 expression did not alter these levels. Additionally, PI3K inhibition markedly decreased PLC-γ1 expression in these cells.ConclusionANP-induced protection of the intestinal barrier in THS is mediated by an intrinsic PLC-γ1/ROS positive feedback loop. ANP preserves gut barrier integrity and reduces IEC apoptosis through this mechanism. Further studies are warranted to investigate the interaction between IECs and other cellular components within the PLC-γ1/ROS loop.

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心房利钠肽通过 PLC-γ1/ROS 反馈环路保护创伤性失血性休克大鼠肠道屏障免受损伤

引言在创伤性失血性休克（THS）期间，心房利钠肽（ANP）对肠道屏障的保护作用的机制仍不明确。本研究旨在探索 ANP 在防止创伤性失血性休克后肠道屏障功能障碍方面的潜在作用，重点是 PLC-γ1/ROS 反馈环路。方法在创伤性失血性休克大鼠模型中，我们随机分配雄性 Sprague-Dawley 大鼠在休克期静脉注射 ANP，同时或不同时注射 NADPH 氧化酶/p38 MAPK 抑制剂。24 小时后，我们评估了循环和空肠 ANP、ROS、肠道紧密连接蛋白和细胞凋亡，以评估 ANP 对肠道屏障的影响及其与肠道 ANP 和 ROS 的相互作用。我们还用 ANP 处理大鼠小肠上皮细胞（IECs），并在抑制或不抑制 PI3K/PLC 的情况下对其进行缺氧/再缺氧损伤，以阐明 ANP/ROS 信号传导与 PLC-γ1 之间的关系。此外，我们还调节了这些 IEC 中 PLC-γ1 的表达，以研究其对 ROS 和 ANP 生成的影响。结果在 THS 期间以 0.025 μg/kg/min 的剂量静脉注射 ANP 可在 24 小时内显著增加肠道 ANP 和 ROS 水平。抑制循环 ROS 会降低肠道 ANP 水平，而抑制循环 ANP 则会降低肠道 ROS 水平。减少缺氧/再氧合处理的 IEC 中 PLC-γ1 的表达可降低 ROS 和 ANP 水平，而增加 PLC-γ1 的表达则不会改变这些水平。此外，PI3K 抑制明显降低了这些细胞中 PLC-γ1 的表达。ANP 通过这一机制保护肠道屏障的完整性并减少 IEC 细胞凋亡。有必要进一步研究 IEC 与 PLC-γ1/ROS 循环中其他细胞成分之间的相互作用。

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来源期刊

European Journal of Inflammation Medicine-Immunology and Allergy

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期刊介绍： European Journal of Inflammation is a multidisciplinary, peer-reviewed, open access journal covering a wide range of topics in inflammation, including immunology, pathology, pharmacology and related general experimental and clinical research.