Microarray Gene Expression Dataset Re-analysis Reveals Variability in Influenza Infection and Vaccination

Microarray Gene Expression Dataset Re-analysis Reveals Variability in Influenza Infection and Vaccination

Influenza, a communicable disease, affects thousands of people worldwide. Young children, elderly, immunocompromised individuals and pregnant women are at higher risk for being infected by the influenza virus. Our study aims to highlight differentially expressed genes in influenza disease compared t...

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Bibliographic Details
Main Authors: Lavida R. K. Rogers, Gustavo de los Campos, George I. Mias
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-11-01
Series:Frontiers in Immunology
Subjects:
influenza
vaccinations
immunity
aging
meta-analysis
micro-arrays
Online Access:https://www.frontiersin.org/article/10.3389/fimmu.2019.02616/full
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spelling doaj-107845b082c949a58aeeed44e0a7e9682020-11-25T01:50:35ZengFrontiers Media S.A.Frontiers in Immunology1664-32242019-11-011010.3389/fimmu.2019.02616484862Microarray Gene Expression Dataset Re-analysis Reveals Variability in Influenza Infection and VaccinationLavida R. K. Rogers0Lavida R. K. Rogers1Gustavo de los Campos2Gustavo de los Campos3Gustavo de los Campos4George I. Mias5George I. Mias6Microbiology and Molecular Genetics, Michigan State University, East Lansing, MI, United StatesInstitute for Quantitative Health Science and Engineering, Michigan State University, East Lansing, MI, United StatesInstitute for Quantitative Health Science and Engineering, Michigan State University, East Lansing, MI, United StatesDepartment of Epidemiology and Biostatistics, Michigan State University, East Lansing, MI, United StatesDepartment of Statistics and Probability, Michigan State University, East Lansing, MI, United StatesInstitute for Quantitative Health Science and Engineering, Michigan State University, East Lansing, MI, United StatesBiochemistry and Molecular Biology, Michigan State University, East Lansing, MI, United StatesInfluenza, a communicable disease, affects thousands of people worldwide. Young children, elderly, immunocompromised individuals and pregnant women are at higher risk for being infected by the influenza virus. Our study aims to highlight differentially expressed genes in influenza disease compared to influenza vaccination, including variability due to age and sex. To accomplish our goals, we conducted a meta-analysis using publicly available microarray expression data. Our inclusion criteria included subjects with influenza, subjects who received the influenza vaccine and healthy controls. We curated 18 microarray datasets for a total of 3,481 samples (1,277 controls, 297 influenza infection, 1,907 influenza vaccination). We pre-processed the raw microarray expression data in R using packages available to pre-process Affymetrix and Illumina microarray platforms. We used a Box-Cox power transformation of the data prior to our down-stream analysis to identify differentially expressed genes. Statistical analyses were based on linear mixed effects model with all study factors and successive likelihood ratio tests (LRT) to identify differentially-expressed genes. We filtered LRT results by disease (Bonferroni adjusted p < 0.05) and used a two-tailed 10% quantile cutoff to identify biologically significant genes. Furthermore, we assessed age and sex effects on the disease genes by filtering for genes with a statistically significant (Bonferroni adjusted p < 0.05) interaction between disease and age, and disease and sex. We identified 4,889 statistically significant genes when we filtered the LRT results by disease factor, and gene enrichment analysis (gene ontology and pathways) included innate immune response, viral process, defense response to virus, Hematopoietic cell lineage and NF-kappa B signaling pathway. Our quantile filtered gene lists comprised of 978 genes each associated with influenza infection and vaccination. We also identified 907 and 48 genes with statistically significant (Bonferroni adjusted p < 0.05) disease-age and disease-sex interactions, respectively. Our meta-analysis approach highlights key gene signatures and their associated pathways for both influenza infection and vaccination. We also were able to identify genes with an age and sex effect. This gives potential for improving current vaccines and exploring genes that are expressed equally across ages when considering universal vaccinations for influenza.https://www.frontiersin.org/article/10.3389/fimmu.2019.02616/fullinfluenzavaccinationsimmunityagingmeta-analysismicro-arrays
collection DOAJ
language English
format Article
sources DOAJ
author Lavida R. K. Rogers
Lavida R. K. Rogers
Gustavo de los Campos
Gustavo de los Campos
Gustavo de los Campos
George I. Mias
George I. Mias
spellingShingle Lavida R. K. Rogers
Lavida R. K. Rogers
Gustavo de los Campos
Gustavo de los Campos
Gustavo de los Campos
George I. Mias
George I. Mias
Microarray Gene Expression Dataset Re-analysis Reveals Variability in Influenza Infection and Vaccination
Frontiers in Immunology
influenza
vaccinations
immunity
aging
meta-analysis
micro-arrays
author_facet Lavida R. K. Rogers
Lavida R. K. Rogers
Gustavo de los Campos
Gustavo de los Campos
Gustavo de los Campos
George I. Mias
George I. Mias
author_sort Lavida R. K. Rogers
title Microarray Gene Expression Dataset Re-analysis Reveals Variability in Influenza Infection and Vaccination
title_short Microarray Gene Expression Dataset Re-analysis Reveals Variability in Influenza Infection and Vaccination
title_full Microarray Gene Expression Dataset Re-analysis Reveals Variability in Influenza Infection and Vaccination
title_fullStr Microarray Gene Expression Dataset Re-analysis Reveals Variability in Influenza Infection and Vaccination
title_full_unstemmed Microarray Gene Expression Dataset Re-analysis Reveals Variability in Influenza Infection and Vaccination
title_sort microarray gene expression dataset re-analysis reveals variability in influenza infection and vaccination
publisher Frontiers Media S.A.
series Frontiers in Immunology
issn 1664-3224
publishDate 2019-11-01
description Influenza, a communicable disease, affects thousands of people worldwide. Young children, elderly, immunocompromised individuals and pregnant women are at higher risk for being infected by the influenza virus. Our study aims to highlight differentially expressed genes in influenza disease compared to influenza vaccination, including variability due to age and sex. To accomplish our goals, we conducted a meta-analysis using publicly available microarray expression data. Our inclusion criteria included subjects with influenza, subjects who received the influenza vaccine and healthy controls. We curated 18 microarray datasets for a total of 3,481 samples (1,277 controls, 297 influenza infection, 1,907 influenza vaccination). We pre-processed the raw microarray expression data in R using packages available to pre-process Affymetrix and Illumina microarray platforms. We used a Box-Cox power transformation of the data prior to our down-stream analysis to identify differentially expressed genes. Statistical analyses were based on linear mixed effects model with all study factors and successive likelihood ratio tests (LRT) to identify differentially-expressed genes. We filtered LRT results by disease (Bonferroni adjusted p < 0.05) and used a two-tailed 10% quantile cutoff to identify biologically significant genes. Furthermore, we assessed age and sex effects on the disease genes by filtering for genes with a statistically significant (Bonferroni adjusted p < 0.05) interaction between disease and age, and disease and sex. We identified 4,889 statistically significant genes when we filtered the LRT results by disease factor, and gene enrichment analysis (gene ontology and pathways) included innate immune response, viral process, defense response to virus, Hematopoietic cell lineage and NF-kappa B signaling pathway. Our quantile filtered gene lists comprised of 978 genes each associated with influenza infection and vaccination. We also identified 907 and 48 genes with statistically significant (Bonferroni adjusted p < 0.05) disease-age and disease-sex interactions, respectively. Our meta-analysis approach highlights key gene signatures and their associated pathways for both influenza infection and vaccination. We also were able to identify genes with an age and sex effect. This gives potential for improving current vaccines and exploring genes that are expressed equally across ages when considering universal vaccinations for influenza.
topic influenza
vaccinations
immunity
aging
meta-analysis
micro-arrays
url https://www.frontiersin.org/article/10.3389/fimmu.2019.02616/full
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