Klebsiella pneumoniae induces dose-dependent shock, organ dysfunction, and coagulopathy in a nonhuman primate critical care model.

IF 5.1 1区 生物学 Q1 MICROBIOLOGY mBio Pub Date : 2024-11-22 DOI:10.1128/mbio.01943-24
Jeffrey R Strich, Marcos J Ramos-Benitez, Seth Warner, Heather Kendall, Sydney Stein, Andrew P Platt, Sabrina C Ramelli, Shelly J Curran, Izabella Lach, Kiana Allen, Ashley Babyak, Luis J Perez-Valencia, Mahnaz Minai, Junfeng Sun, Kevin M Vannella, Derron Alves, Richard Herbert, Daniel S Chertow
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Abstract

Nonhuman primate models that closely emulate the disease course, pathogenesis, and supportive care provided to human patients in the modern intensive care unit with bacterial sepsis are urgently needed to study pathogenesis and assess novel therapies. We therefore developed a non-human primate model of septic shock that includes supportive care akin to a modern intensive care unit. In this study, we characterized pathogen kinetics and evaluated the physiologic, immunologic, and pathologic responses in this model of septic shock induced by the clinically relevant pathogen Klebsiella pneumoniae across a three-log dose range. We observed dose-dependent bacteremia and circulating levels of Klebsiella pneumoniae DNA and endotoxin. Tachycardia and hypotension occurred in all animals and the study endpoint occurred in 8 of 12 animals that were euthanized. The infused bacterial dose was significantly associated with the severity of renal insufficiency and coagulopathy. Neutrophil activation evidenced by increased CD11b expression, decreased CD62L expression, and increased circulating levels of myeloperoxidase, lactoferrin, and neutrophil extracellular traps; monocyte activation evidenced by increased circulating levels of interleukin-6, tumor necrosis factor-alpha, granulocyte-macrophage colony-stimulating factor, and monocyte chemotactic protein-1; and endothelial activation evidenced by increased circulating levels of syndecan-1 and angiopoietin-II were all consistent with human sepsis. Our model provides an opportunity to study pathogenesis and investigate novel therapeutics for the treatment of bacterial sepsis in the setting of modern supportive care.IMPORTANCEThere is currently a disconnect between the efficacy of sepsis therapies in pre-clinical animal models and human clinical trials. Therefore, developing nonhuman primate models that closely mimic human sepsis pathogenesis to study novel host-targeted therapeutics is a priority. In this study, we developed a model of septic shock with a clinically relevant bacteria (Klebsiella pneumoniae) that provides standard supportive care including mechanical ventilation, invasive hemodynamic monitoring, volume resuscitation, vasopressors, antibiotics, and steroids. In a dose-dependent manner, we observed that this model closely emulates the hemodynamic, end-organ dysfunction, and cellular and soluble responses associated with human sepsis. This validated model provides a unique opportunity to study the pathogenesis of acute septic shock and evaluate host-directed therapeutics in a large animal model that closely emulates the modern-day intensive care unit and supportive critical care.

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肺炎克雷伯氏菌在非人灵长类重症监护模型中诱发剂量依赖性休克、器官功能障碍和凝血功能障碍。
为了研究细菌性败血症的发病机理和评估新疗法,急需建立非人灵长类动物模型,该模型能密切模拟病程、发病机理以及在现代重症监护病房为人类细菌性败血症患者提供的支持性护理。因此,我们开发了一种非人灵长类脓毒性休克模型,其中包括与现代重症监护病房类似的支持性护理。在这项研究中,我们描述了病原体动力学的特点,并评估了临床相关病原体肺炎克雷伯菌在三对数剂量范围内诱发脓毒性休克模型的生理、免疫和病理反应。我们观察到了剂量依赖性菌血症以及循环中的肺炎克雷伯菌 DNA 和内毒素水平。所有动物都出现了心动过速和低血压,在安乐死的 12 只动物中有 8 只达到了研究终点。输注的细菌剂量与肾功能不全和凝血病的严重程度明显相关。中性粒细胞活化表现为 CD11b 表达增加、CD62L 表达减少以及髓过氧化物酶、乳铁蛋白和中性粒细胞胞外捕获物的循环水平升高;单核细胞活化表现为循环中白细胞介素-6、肿瘤坏死因子-α、粒细胞-巨噬细胞集落刺激因子和单核细胞趋化蛋白-1水平的升高;内皮细胞活化表现为循环中辛迪加-1和血管生成素-II水平的升高。我们的模型为在现代支持性护理环境下研究细菌性败血症的发病机制和新型疗法提供了机会。目前,败血症疗法在临床前动物模型中的疗效与人体临床试验之间存在脱节。因此,开发能密切模拟人类败血症发病机制的非人灵长类动物模型来研究新型宿主靶向疗法是当务之急。在这项研究中,我们用临床相关细菌(肺炎克雷伯菌)建立了一个脓毒性休克模型,该模型提供标准的支持性治疗,包括机械通气、有创血液动力学监测、容量复苏、血管加压剂、抗生素和类固醇。我们观察到,该模型以剂量依赖的方式密切模拟了与人类败血症相关的血液动力学、内脏器官功能障碍以及细胞和可溶性反应。这种经过验证的模型为研究急性脓毒性休克的发病机理和评估宿主导向疗法提供了一个独特的机会,这种大型动物模型密切模拟了现代重症监护室和支持性重症监护。
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来源期刊
mBio
mBio MICROBIOLOGY-
CiteScore
10.50
自引率
3.10%
发文量
762
审稿时长
1 months
期刊介绍: mBio® is ASM''s first broad-scope, online-only, open access journal. mBio offers streamlined review and publication of the best research in microbiology and allied fields.
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