Predictive signature of murine and human host response to typical and atypical pneumonia.

IF 3.6 3区 医学 Q1 RESPIRATORY SYSTEM BMJ Open Respiratory Research Pub Date : 2024-08-03 DOI:10.1136/bmjresp-2023-002001
Matthew McCravy, Nicholas O'Grady, Kirin Khan, Marisol Betancourt-Quiroz, Aimee K Zaas, Amy E Treece, Zhonghui Yang, Loretta Que, Ricardo Henao, Sunil Suchindran, Geoffrey S Ginsburg, Christopher W Woods, Micah T McClain, Ephraim L Tsalik
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Abstract

Background: Pneumonia due to typical bacterial, atypical bacterial and viral pathogens can be difficult to clinically differentiate. Host response-based diagnostics are emerging as a complementary diagnostic strategy to pathogen detection.

Methods: We used murine models of typical bacterial, atypical bacterial and viral pneumonia to develop diagnostic signatures and understand the host's response to these types of infections. Mice were intranasally inoculated with Streptococcus pneumoniae, Mycoplasma pneumoniae, influenza or saline as a control. Peripheral blood gene expression analysis was performed at multiple time points. Differentially expressed genes were used to perform gene set enrichment analysis and generate diagnostic signatures. These murine-derived signatures were externally validated in silico using human gene expression data. The response to S. pneumoniae was the most rapid and robust.

Results: Mice infected with M. pneumoniae had a delayed response more similar to influenza-infected animals. Diagnostic signatures for the three types of infection had 0.94-1.00 area under the receiver operator curve (auROC). Validation in five human gene expression datasets revealed auROC of 0.82-0.96.

Discussion: This study identified discrete host responses to typical bacterial, atypical bacterial and viral aetiologies of pneumonia in mice. These signatures validated well in humans, highlighting the conserved nature of the host response to these pathogen classes.

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小鼠和人类宿主对典型和非典型肺炎反应的预测特征。
背景:典型细菌、非典型细菌和病毒病原体引起的肺炎在临床上很难区分。基于宿主反应的诊断正在成为病原体检测的补充诊断策略:方法:我们使用典型细菌、非典型细菌和病毒肺炎小鼠模型来开发诊断特征,并了解宿主对这些类型感染的反应。小鼠经鼻内接种肺炎链球菌、肺炎支原体、流感或生理盐水作为对照。在多个时间点进行外周血基因表达分析。利用差异表达基因进行基因组富集分析并生成诊断特征。利用人类基因表达数据对这些鼠源性特征进行了外部硅验证。结果显示,小鼠对肺炎双球菌的反应最为迅速和稳健:结果:感染肺炎双球菌的小鼠的延迟反应与感染流感的动物更为相似。三种感染类型的诊断特征的受体运算曲线下面积(auROC)为 0.94-1.00。五个人类基因表达数据集的验证结果显示,接受者操作曲线下面积(auROC)为 0.82-0.96:这项研究确定了小鼠对典型细菌、非典型细菌和病毒性肺炎病因的离散宿主反应。这些特征在人类身上得到了很好的验证,突显了宿主对这些病原体类别反应的保守性。
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来源期刊
BMJ Open Respiratory Research
BMJ Open Respiratory Research RESPIRATORY SYSTEM-
CiteScore
6.60
自引率
2.40%
发文量
95
审稿时长
12 weeks
期刊介绍: BMJ Open Respiratory Research is a peer-reviewed, open access journal publishing respiratory and critical care medicine. It is the sister journal to Thorax and co-owned by the British Thoracic Society and BMJ. The journal focuses on robustness of methodology and scientific rigour with less emphasis on novelty or perceived impact. BMJ Open Respiratory Research operates a rapid review process, with continuous publication online, ensuring timely, up-to-date research is available worldwide. The journal publishes review articles and all research study types: Basic science including laboratory based experiments and animal models, Pilot studies or proof of concept, Observational studies, Study protocols, Registries, Clinical trials from phase I to multicentre randomised clinical trials, Systematic reviews and meta-analyses.
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