肺上皮调节酶-1会抑制局部免疫反应,但不会降低对肺炎克雷伯氏菌的易感性

Q3 Medicine ImmunoHorizons Pub Date : 2024-01-01 DOI:10.4049/immunohorizons.2300082
Becky Lin, Li Fan, Shaterra Jackson, Aidan R Matunis, Dequan Lou, Kong Chen, Giraldina Trevejo-Nuñez
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引用次数: 0

摘要

肺炎克雷伯氏菌(KP)对全球健康构成威胁,由于其具有多重耐药性和治疗方案有限,导致了严重的发病率和死亡率。为了消除 KP 肺部感染,宿主会启动强大的炎症反应。宿主减轻过度炎症反应的机制之一涉及 RNA 结合蛋白 regnase-1(Reg1、MCPIP1 或 ZC3H12A)。Reg1 有一个 RNA 结合域,可识别各种促炎症转录本 3' 非翻译区中的茎环结构,从而导致 mRNA 衰减。然而,Reg1 对炎症的过度抑制会导致 KP 控制不理想。非造血区的 Reg1 缺乏会导致肺部对 KP 产生抵抗力。鉴于肺上皮对 KP 的抗性至关重要,我们假设在肺上皮细胞中选择性地删除 Reg1 可能会增强促炎信号,从而更好地控制 KP。我们对受 KP 感染的野生型小鼠的上皮细胞进行了转录组学分析,结果显示存在三种不同的肺泡 2 型细胞(AT2)亚群(传统型、炎症型和循环型),而 Reg1 在炎症型 AT2 细胞中富集。我们有条件地删除了肺AT2细胞中的Reg1(ΔReg1),与对照组相比,这扩大了肺部的局部炎症反应,并增加了巨噬细胞的数量。然而,当ΔReg1小鼠受到KP感染时,细菌负荷和存活率与对照组相比没有显著差异。这些发现表明,AT2细胞中Reg1缺失所增强的局部炎症反应不足以控制KP感染。
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Lung Epithelial Regnase-1 Dampens Local Immune Response but Does Not Worsen Susceptibility to Klebsiella pneumoniae.

Klebsiella pneumoniae (KP) presents a global health threat, leading to significant morbidity and mortality due to its multidrug-resistant profile and the limited availability of therapeutic options. To eliminate KP lung infection, the host initiates a robust inflammatory response. One of the host's mechanisms for mitigating excessive inflammation involves the RNA-binding protein regnase-1 (Reg1, MCPIP1, or ZC3H12A). Reg1 has an RNA binding domain that recognizes stem-loop structures in the 3' untranslated region of various proinflammatory transcripts, leading to mRNA decay. However, excessive suppression of inflammation by Reg1 results in suboptimal KP control. Reg1 deficiency within the nonhematopoietic compartment confers resistance to KP in the lung. Given that lung epithelium is crucial for KP resistance, we hypothesized that selective deletion of Reg1 in lung epithelial cells might enhance proinflammatory signals, leading to a better control of KP. Our transcriptomic analysis of epithelial cells in KP-infected wild-type mice revealed the presence of three distinct alveolar type 2 cell (AT2) subpopulations (conventional, inflammatory, and cycling) and enrichment of Reg1 in inflammatory AT2 cells. We conditionally deleted Reg1 in lung AT2 cells (ΔReg1), which amplified the local inflammatory response in the lung and increased macrophage cell numbers compared with controls. However, when ΔReg1 mice were subjected to KP infection, there were no significant differences in bacterial burden or survival compared with controls. These findings suggest that the local inflammatory response enhanced by Reg1 deletion in AT2 cells is insufficient to control KP infection.

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