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Gene signatures related to B-cell proliferation predict influenza vaccine-induced antibody response.


ABSTRACT: Vaccines are very effective at preventing infectious disease but not all recipients mount a protective immune response to vaccination. Recently, gene expression profiles of PBMC samples in vaccinated individuals have been used to predict the development of protective immunity. However, the magnitude of change in gene expression that separates vaccine responders and nonresponders is likely to be small and distributed across networks of genes, making the selection of predictive and biologically relevant genes difficult. Here we apply a new approach to predicting vaccine response based on coordinated upregulation of sets of biologically informative genes in postvaccination gene expression profiles. We found that enrichment of gene sets related to proliferation and immunoglobulin genes accurately segregated high responders to influenza vaccination from low responders and achieved a prediction accuracy of 88% in an independent clinical trial. Many of the genes in these gene sets would not have been identified using conventional, single-gene level approaches because of their subtle upregulation in vaccine responders. Our results demonstrate that gene set enrichment method can capture subtle transcriptional changes and may be a generally useful approach for developing and interpreting predictive models of the human immune response.

SUBMITTER: Tan Y 

PROVIDER: S-EPMC3973429 | biostudies-literature | 2014 Jan

REPOSITORIES: biostudies-literature

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Gene signatures related to B-cell proliferation predict influenza vaccine-induced antibody response.

Tan Yan Y   Tamayo Pablo P   Nakaya Helder H   Pulendran Bali B   Mesirov Jill P JP   Haining W Nicholas WN  

European journal of immunology 20131129 1


Vaccines are very effective at preventing infectious disease but not all recipients mount a protective immune response to vaccination. Recently, gene expression profiles of PBMC samples in vaccinated individuals have been used to predict the development of protective immunity. However, the magnitude of change in gene expression that separates vaccine responders and nonresponders is likely to be small and distributed across networks of genes, making the selection of predictive and biologically re  ...[more]

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