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Distinct subsets of neutrophils crosstalk with cytokines and metabolites in patients with sepsis.脓毒症患者中不同的中性粒细胞亚群与细胞因子和代谢产物相互作用。
iScience. 2023 Jan 7;26(2):105948. doi: 10.1016/j.isci.2023.105948. eCollection 2023 Feb 17.
2
Double-negative T cells: Setting the stage for disease control or progression.双阴性 T 细胞:控制疾病或进展的关键。
Immunology. 2022 Apr;165(4):371-385. doi: 10.1111/imm.13441. Epub 2022 Jan 5.
3
Expanded Histopathology and Tropism of Ebola Virus in the Rhesus Macaque Model: Potential for Sexual Transmission, Altered Adrenomedullary Hormone Production, and Early Viral Replication in Liver.恒河猴模型中埃博拉病毒的扩展组织病理学和嗜性:潜在的性传播、肾上腺髓质激素产生改变和肝脏中的早期病毒复制。
Am J Pathol. 2022 Jan;192(1):121-129. doi: 10.1016/j.ajpath.2021.09.009. Epub 2021 Oct 6.
4
Double-negative (DN) B cells: an under-recognized effector memory B cell subset in autoimmunity.双阴性(DN)B 细胞:自身免疫中被低估的效应记忆 B 细胞亚群。
Clin Exp Immunol. 2021 Aug;205(2):119-127. doi: 10.1111/cei.13615. Epub 2021 Jun 6.
5
Intensive Care Unit-Like Care of Nonhuman Primates with Ebola Virus Disease.埃博拉病毒病非人灵长类动物的重症加强护理病房式治疗。
J Infect Dis. 2021 Aug 16;224(4):632-642. doi: 10.1093/infdis/jiaa781.
6
Single-Cell Profiling of Ebola Virus Disease In Vivo Reveals Viral and Host Dynamics.单细胞分析埃博拉病毒病体内动态揭示病毒和宿主动态。
Cell. 2020 Nov 25;183(5):1383-1401.e19. doi: 10.1016/j.cell.2020.10.002. Epub 2020 Nov 6.
7
Kikwit Ebola Virus Disease Progression in the Rhesus Monkey Animal Model.基奎特埃博拉病毒病在恒河猴动物模型中的进展。
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An Integrated Multi-omic Single-Cell Atlas of Human B Cell Identity.人类 B 细胞特征的综合多组学单细胞图谱。
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Peripheral Neuronopathy Associated With Ebola Virus Infection in Rhesus Macaques: A Possible Cause of Neurological Signs and Symptoms in Human Ebola Patients.埃博拉病毒感染相关周围神经病:人类埃博拉患者神经症状和体征的可能病因。
J Infect Dis. 2020 Oct 13;222(10):1745-1755. doi: 10.1093/infdis/jiaa304.
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Immunologic timeline of Ebola virus disease and recovery in humans.埃博拉病毒病在人类中的免疫时间进程和恢复情况。
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在重症监护模型中,埃博拉病毒感染的非人类灵长类动物中血管扩张性休克的临床和免疫相关性。

Clinical and Immunologic Correlates of Vasodilatory Shock Among Ebola Virus-Infected Nonhuman Primates in a Critical Care Model.

机构信息

Laboratory of Virology, National Institute of Allergy and Infectious Diseases.

Emerging Pathogens Section, Critical Care Medicine Department, Clinical Center.

出版信息

J Infect Dis. 2023 Nov 13;228(Suppl 7):S635-S647. doi: 10.1093/infdis/jiad374.

DOI:10.1093/infdis/jiad374
PMID:37652048
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10651209/
Abstract

BACKGROUND

Existing models of Ebola virus infection have not fully characterized the pathophysiology of shock in connection with daily virologic, clinical, and immunologic parameters. We implemented a nonhuman primate critical care model to investigate these associations.

METHODS

Two rhesus macaques received a target dose of 1000 plaque-forming units of Ebola virus intramuscularly with supportive care initiated on day 3. High-dimensional spectral cytometry was used to phenotype neutrophils and peripheral blood mononuclear cells daily.

RESULTS

We observed progressive vasodilatory shock with preserved cardiac function following viremia onset on day 5. Multiorgan dysfunction began on day 6 coincident with the nadir of circulating neutrophils. Consumptive coagulopathy and anemia occurred on days 7 to 8 along with irreversible shock, followed by death. The monocyte repertoire began shifting on day 4 with a decline in classical and expansion of double-negative monocytes. A selective loss of CXCR3-positive B and T cells, expansion of naive B cells, and activation of natural killer cells followed viremia onset.

CONCLUSIONS

Our model allows for high-fidelity characterization of the pathophysiology of acute Ebola virus infection with host innate and adaptive immune responses, which may advance host-targeted therapy design and evaluation for use after the onset of multiorgan failure.

摘要

背景

现有的埃博拉病毒感染模型未能充分描述与每日病毒学、临床和免疫学参数相关的休克病理生理学。我们实施了一种非人类灵长类动物重症监护模型来研究这些关联。

方法

两只恒河猴接受了 1000 个噬菌斑形成单位的埃博拉病毒肌内注射,第 3 天开始接受支持性护理。高维光谱细胞术用于每天表型中性粒细胞和外周血单核细胞。

结果

我们观察到,在第 5 天病毒血症发作后出现进行性血管舒张性休克,同时保留了心脏功能。多器官功能障碍始于第 6 天,与循环中性粒细胞的最低点同时发生。消耗性凝血病和贫血发生在第 7 天至第 8 天,伴有不可逆性休克,随后死亡。单核细胞库在第 4 天开始发生变化,经典型减少,双阴性型增加。病毒血症发作后,CXCR3 阳性 B 和 T 细胞选择性丧失、幼稚 B 细胞扩增和自然杀伤细胞激活。

结论

我们的模型允许对急性埃博拉病毒感染的病理生理学进行高保真度的描述,包括宿主先天和适应性免疫反应,这可能有助于针对宿主的治疗方法设计和评估,以便在多器官衰竭发作后使用。