Mining the key genes for ventilator-induced lung injury using co-expression network analysis.

Zhao Li,Li Xu,Qingxiu Wang,Yajun Xiao

doi:10.1042/bsr20203235

Abstract

Mechanical ventilation is extensively adopted in general anesthesia and respiratory failure management, but it can also induce ventilator-induced lung injury (VILI). Therefore, it is of great urgency to explore the mechanisms involved in the VILI pathogenesis, which might contribute to its future prevention and treatment. Four microarray datasets from the GEO database were selected in our investigation, and were subjected to the Weighted Gene Co-Expression Network Analysis (WGCNA) to identify the VILI-correlated gene modules. The limma package in R software was used to identify the differentially expressed genes (DEGs) between the VILI and control groups. WGCNA was constructed by merging the GSE9314, GSE9368, GSE11434 and GSE11662 datasets. A total of 49 co-expression network modules were determined as associated with VILI. The intersected genes between hub genes screened from DEGs for VILI and those identified using WGCNA were as follows: Tlr2, Hmox1, Serpine1, Mmp9, Il6, Il1b, Ptgs2, Fos and Atf3, which were determined to be key genes for VILI. Those key genes were validated by GSE86229 and quantitative PCR (qPCR) experiment to have significantly statistical difference in their expression between the VILI and control groups. In a nutshell, nine key genes with expression differences in VILI were screened by WGCNA by integrating multiple datasets.

Highlights

Mechanical ventilation is a therapeutic measure usually taken in dealing with general anesthesia and respiratory failure [1,2]
Gajic et al found that within 3 days after being given at least 48-h mechanical ventilation, 25% of patients originally diagnosed as having no acute lung injury (ALI) developed symptoms of ALI [5]; when mechanical ventilation lasted for more than 2 weeks, nearly half of the patients showed pulmonary complications associated with mechanical ventilation [6]
We only preserved the expressions of genes that were detected in all microarrays

Summary

Introduction

Mechanical ventilation is a therapeutic measure usually taken in dealing with general anesthesia and respiratory failure [1,2]. Other than providing respiratory support, it could induce or aggravate lung injuries, known as Ventilator-Induced Lung Injury (VILI) [4]. A further study on the mechanisms of VILI revealed that the main cause of VILI is mechanical injury [4]. Apart from being caused by mechanical impairment, there is another type of lung injury induced by the massive release of inflammatory factors in the lung, known as biological injury [8,9]. It is currently uncertain about the pathological mechanism of such injury, and its effective intervening measures are wanting [10]. If key genes involved in such injury are identified, it will

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Conclusion