MAVS 信号对小鼠脂多糖诱发的急性肾损伤的保护作用

Q3 Medicine ImmunoHorizons Pub Date : 2024-01-01 DOI:10.4049/immunohorizons.2300069
Trang Anh Thi Tran, Yasunori Iwata, Linh Thuy Hoang, Shinji Kitajima, Shiori Yoneda-Nakagawa, Megumi Oshima, Norihiko Sakai, Tadashi Toyama, Yuta Yamamura, Hiroka Yamazaki, Akinori Hara, Miho Shimizu, Keisuke Sako, Taichiro Minami, Takahiro Yuasa, Keisuke Horikoshi, Daiki Hayashi, Sho Kajikawa, Takashi Wada
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引用次数: 0

摘要

尽管治疗手段在不断进步,但住院成人中与急性肾损伤(AKI)相关的死亡率仍然很高,这通常是由败血症引起的。脓毒症和急性肾损伤会协同恶化重症患者的预后。TLR4 信号传导和线粒体抗病毒信号传导蛋白(MAVS)信号传导是肾脏疾病中必不可少的先天性免疫反应,但它们在脓毒症相关性 AKI(SA-AKI)中的参与仍不清楚。我们利用野生型和 MAVS 基因敲除小鼠 LPS 诱导的 AKI 模型研究了 MAVS 在与 TLR4 信号通路相关的肾损伤中的作用。我们通过体内炎症反应评估证实了 M1 巨噬细胞在 SA-AKI 中的重要性。TLR4信号通路在活化的骨髓源巨噬细胞中上调,其中MAVS有助于维持LPS抑制的TLR4 mRNA水平。MAVS通过巨噬细胞中的NADPH氧化酶Nox2和线粒体反向电子传递调节氧化还原平衡,以减轻TLR4信号对LPS的反应。缺氧诱导因子1α(HIF-1α)和AP-1是TLR4转录的关键调节因子,并将MAVS依赖性活性氧信号与TLR4通路联系起来。抑制琥珀酸脱氢酶可在一定程度上减轻经 LPS 处理的骨髓巨噬细胞的炎症反应。这些发现突显了 MAVS 通过调节活性氧生成相关基因和维持氧化还原平衡,在 LPS 诱导的 AKI 中发挥肾脏保护作用。通过MAVS信号传导控制氧化还原平衡可能是一种治疗SA-AKI的有效方法。
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Protective Role of MAVS Signaling for Murine Lipopolysaccharide-Induced Acute Kidney Injury.

Despite treatment advances, acute kidney injury (AKI)-related mortality rates are still high in hospitalized adults, often due to sepsis. Sepsis and AKI could synergistically worsen the outcomes of critically ill patients. TLR4 signaling and mitochondrial antiviral signaling protein (MAVS) signaling are innate immune responses essential in kidney diseases, but their involvement in sepsis-associated AKI (SA-AKI) remains unclear. We studied the role of MAVS in kidney injury related to the TLR4 signaling pathway using a murine LPS-induced AKI model in wild-type and MAVS-knockout mice. We confirmed the importance of M1 macrophage in SA-AKI through in vivo assessment of inflammatory responses. The TLR4 signaling pathway was upregulated in activated bone marrow-derived macrophages, in which MAVS helped maintain the LPS-suppressed TLR4 mRNA level. MAVS regulated redox homeostasis via NADPH oxidase Nox2 and mitochondrial reverse electron transport in macrophages to alleviate the TLR4 signaling response to LPS. Hypoxia-inducible factor 1α (HIF-1α) and AP-1 were key regulators of TLR4 transcription and connected MAVS-dependent reactive oxygen species signaling with the TLR4 pathway. Inhibition of succinate dehydrogenase could partly reduce inflammation in LPS-treated bone marrow-derived macrophages without MAVS. These findings highlight the renoprotective role of MAVS in LPS-induced AKI by regulating reactive oxygen species generation-related genes and maintaining redox balance. Controlling redox homeostasis through MAVS signaling may be a promising therapy for SA-AKI.

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