IRF4 and STAT3 activities are associated with the imbalanced differentiation of T-cells in responses to inhalable particulate matters

IRF4 and STAT3 activities are associated with the imbalanced differentiation of T-cells in responses to inhalable particulate matters

Abstract Background Particulate Matter (PM) is known to cause inflammatory responses in human. Although prior studies verified the immunogenicity of PM in cell lines and animal models, the effectors of PM exposure in the respiratory system and the regulators of the immunogenicity of PM is not fully...

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Main Authors: Jinzhun Wu, Dandan Ge, Taoling Zhong, Zuojia Chen, Ying Zhou, Lingyun Hou, Xiaoliang Lin, Jiaxu Hong, Kuai Liu, Hui Qi, Chaoying Wang, Yulin Zhou, Cheng Li, Chuan Wu, Shuiping Wu, Zuguo Liu, Qiyuan Li
Format: Article
Language:English
Published: BMC 2020-05-01
Series:Respiratory Research
Subjects:
Particulate matters
Gene expression profiling
Allergic respiratory disease
Imbalanced T-cell differentiation
Transcription factor
Online Access:http://link.springer.com/article/10.1186/s12931-020-01368-2
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spelling doaj-b0faee3312494851a73f0e774d98ae632020-11-25T03:21:55ZengBMCRespiratory Research1465-993X2020-05-0121111310.1186/s12931-020-01368-2IRF4 and STAT3 activities are associated with the imbalanced differentiation of T-cells in responses to inhalable particulate mattersJinzhun Wu0Dandan Ge1Taoling Zhong2Zuojia Chen3Ying Zhou4Lingyun Hou5Xiaoliang Lin6Jiaxu Hong7Kuai Liu8Hui Qi9Chaoying Wang10Yulin Zhou11Cheng Li12Chuan Wu13Shuiping Wu14Zuguo Liu15Qiyuan Li16Department of Pediatrics, the First Affiliated Hospital of Xiamen UniversityDepartment of Pediatrics, the First Affiliated Hospital of Xiamen UniversityNational Institute of Data Science in Health and Medicine, School of Medicine, Xiamen UniversityExperimental Immunology Branch, National Cancer Institute, NIHNational Institute of Data Science in Health and Medicine, School of Medicine, Xiamen UniversityNational Institute of Data Science in Health and Medicine, School of Medicine, Xiamen UniversityDepartment of Pediatrics, the First Affiliated Hospital of Xiamen UniversityDepartment of Ophthalmology and Vision Science, Eye & ENT Hospital, Fudan UniversityNational Institute of Data Science in Health and Medicine, School of Medicine, Xiamen UniversityThe 980st Hospital of the PLA Joint Logistics Support Force (Primary Bethune International Peace Hospital of PLA)The 980st Hospital of the PLA Joint Logistics Support Force (Primary Bethune International Peace Hospital of PLA)Maternal and Child Health Hospital Affiliated Xiamen UniversityFujian Provincial Key Laboratory of Ophthalmology and Visual Science, Eye Institute of Xiamen University, School of Medicine, Xiamen UniversityExperimental Immunology Branch, National Cancer Institute, NIHMarine Chemistry and Toxicology Research Center, College of the Environment & Ecology, Xiamen UniversityFujian Provincial Key Laboratory of Ophthalmology and Visual Science, Eye Institute of Xiamen University, School of Medicine, Xiamen UniversityDepartment of Pediatrics, the First Affiliated Hospital of Xiamen UniversityAbstract Background Particulate Matter (PM) is known to cause inflammatory responses in human. Although prior studies verified the immunogenicity of PM in cell lines and animal models, the effectors of PM exposure in the respiratory system and the regulators of the immunogenicity of PM is not fully elucidated. Methods To identify the potential effector of PM exposure in human respiratory system and to better understand the biology of the immunogenicity of PM, We performed gene-expression profiling of peripheral blood mononuclear cells from 171 heathy subjects in northern China to identify co-expressed gene modules associated with PM exposure. We inferred transcription factors regulating the co-expression and validated the association to T-cell differentiation in both primary T-cells and mice treated with PM. Results We report two transcription factors, IRF4 and STAT3, as regulators of the gene expression in response to PM exposure in human. We confirmed that the activation of IRF4 and STAT3 by PM is strongly associated with imbalanced differentiation of T-cells in the respiratory tracts in a time-sensitive manner in mouse. We also verified the consequential inflammatory responses of the PM exposure. Moreover, we show that the protein levels of phosphorylated IRF4 and STAT3 increase with PM exposure. Conclusions Our study suggests the regulatory activities of IRF4 and STAT3 are associated with the Th17-mediated inflammatory responses to PM exposure in the respiratory tracts, which informs the biological background of the immunogenicity of particulate matters.http://link.springer.com/article/10.1186/s12931-020-01368-2Particulate mattersGene expression profilingAllergic respiratory diseaseImbalanced T-cell differentiationTranscription factor
collection DOAJ
language English
format Article
sources DOAJ
author Jinzhun Wu
Dandan Ge
Taoling Zhong
Zuojia Chen
Ying Zhou
Lingyun Hou
Xiaoliang Lin
Jiaxu Hong
Kuai Liu
Hui Qi
Chaoying Wang
Yulin Zhou
Cheng Li
Chuan Wu
Shuiping Wu
Zuguo Liu
Qiyuan Li
spellingShingle Jinzhun Wu
Dandan Ge
Taoling Zhong
Zuojia Chen
Ying Zhou
Lingyun Hou
Xiaoliang Lin
Jiaxu Hong
Kuai Liu
Hui Qi
Chaoying Wang
Yulin Zhou
Cheng Li
Chuan Wu
Shuiping Wu
Zuguo Liu
Qiyuan Li
IRF4 and STAT3 activities are associated with the imbalanced differentiation of T-cells in responses to inhalable particulate matters
Respiratory Research
Particulate matters
Gene expression profiling
Allergic respiratory disease
Imbalanced T-cell differentiation
Transcription factor
author_facet Jinzhun Wu
Dandan Ge
Taoling Zhong
Zuojia Chen
Ying Zhou
Lingyun Hou
Xiaoliang Lin
Jiaxu Hong
Kuai Liu
Hui Qi
Chaoying Wang
Yulin Zhou
Cheng Li
Chuan Wu
Shuiping Wu
Zuguo Liu
Qiyuan Li
author_sort Jinzhun Wu
title IRF4 and STAT3 activities are associated with the imbalanced differentiation of T-cells in responses to inhalable particulate matters
title_short IRF4 and STAT3 activities are associated with the imbalanced differentiation of T-cells in responses to inhalable particulate matters
title_full IRF4 and STAT3 activities are associated with the imbalanced differentiation of T-cells in responses to inhalable particulate matters
title_fullStr IRF4 and STAT3 activities are associated with the imbalanced differentiation of T-cells in responses to inhalable particulate matters
title_full_unstemmed IRF4 and STAT3 activities are associated with the imbalanced differentiation of T-cells in responses to inhalable particulate matters
title_sort irf4 and stat3 activities are associated with the imbalanced differentiation of t-cells in responses to inhalable particulate matters
publisher BMC
series Respiratory Research
issn 1465-993X
publishDate 2020-05-01
description Abstract Background Particulate Matter (PM) is known to cause inflammatory responses in human. Although prior studies verified the immunogenicity of PM in cell lines and animal models, the effectors of PM exposure in the respiratory system and the regulators of the immunogenicity of PM is not fully elucidated. Methods To identify the potential effector of PM exposure in human respiratory system and to better understand the biology of the immunogenicity of PM, We performed gene-expression profiling of peripheral blood mononuclear cells from 171 heathy subjects in northern China to identify co-expressed gene modules associated with PM exposure. We inferred transcription factors regulating the co-expression and validated the association to T-cell differentiation in both primary T-cells and mice treated with PM. Results We report two transcription factors, IRF4 and STAT3, as regulators of the gene expression in response to PM exposure in human. We confirmed that the activation of IRF4 and STAT3 by PM is strongly associated with imbalanced differentiation of T-cells in the respiratory tracts in a time-sensitive manner in mouse. We also verified the consequential inflammatory responses of the PM exposure. Moreover, we show that the protein levels of phosphorylated IRF4 and STAT3 increase with PM exposure. Conclusions Our study suggests the regulatory activities of IRF4 and STAT3 are associated with the Th17-mediated inflammatory responses to PM exposure in the respiratory tracts, which informs the biological background of the immunogenicity of particulate matters.
topic Particulate matters
Gene expression profiling
Allergic respiratory disease
Imbalanced T-cell differentiation
Transcription factor
url http://link.springer.com/article/10.1186/s12931-020-01368-2
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