SummarySystems immunology approaches were employed to investigate innate and adaptive immune responses to influenza and pneumococcal vaccines. These two non-live vaccines show different magnitudes of transcriptional responses at different time points after vaccination. Software solutions were developed to explore correlates of vaccine efficacy measured as antibody titers at day 28. These enabled a further dissection of transcriptional responses. Thus, the innate response, measured within hours in the peripheral blood, was dominated by an interferon transcriptional signature after influenza vaccination and by an inflammation signature after pneumococcal vaccination. Day 7 plasmablast responses induced by both vaccines was more pronounced aft...
Effective vaccines for many dangerous infectious diseases are still lacking. An improved understandi...
International audiencePredicting vaccine efficacy remains a challenge. We used a systems vaccinology...
Highly effective vaccines elicit specific, robust, and durable adaptive immune responses. To advance...
Systems immunology approaches were employed to investigate innate and adaptive immune responses to i...
SummarySystems immunology approaches were employed to investigate innate and adaptive immune respons...
Successful immune response to infection involves coordinated interactions among a myriad of cell typ...
AbstractThe immune system is a network of specialized cell types and tissues that communicates via c...
SummarySystems approaches have been used to describe molecular signatures driving immunity to influe...
Here we have used a systems biology approach to study innate and adaptive responses to vaccination a...
Abstract Gene expression data is commonly used in vaccine studies to characterize differences betwee...
SummaryA major goal of systems biology is the development of models that accurately predict response...
In this issue of Immunity, Obermoser et al. (2013) systematically analyze and compare the blood-tran...
International audienceMost vaccines, including those against influenza, were developed by focusing s...
The move toward precision medicine has highlighted the importance of understanding biological variab...
In this study, we used a systems vaccinology approach to identify temporal changes in immune respons...
Effective vaccines for many dangerous infectious diseases are still lacking. An improved understandi...
International audiencePredicting vaccine efficacy remains a challenge. We used a systems vaccinology...
Highly effective vaccines elicit specific, robust, and durable adaptive immune responses. To advance...
Systems immunology approaches were employed to investigate innate and adaptive immune responses to i...
SummarySystems immunology approaches were employed to investigate innate and adaptive immune respons...
Successful immune response to infection involves coordinated interactions among a myriad of cell typ...
AbstractThe immune system is a network of specialized cell types and tissues that communicates via c...
SummarySystems approaches have been used to describe molecular signatures driving immunity to influe...
Here we have used a systems biology approach to study innate and adaptive responses to vaccination a...
Abstract Gene expression data is commonly used in vaccine studies to characterize differences betwee...
SummaryA major goal of systems biology is the development of models that accurately predict response...
In this issue of Immunity, Obermoser et al. (2013) systematically analyze and compare the blood-tran...
International audienceMost vaccines, including those against influenza, were developed by focusing s...
The move toward precision medicine has highlighted the importance of understanding biological variab...
In this study, we used a systems vaccinology approach to identify temporal changes in immune respons...
Effective vaccines for many dangerous infectious diseases are still lacking. An improved understandi...
International audiencePredicting vaccine efficacy remains a challenge. We used a systems vaccinology...
Highly effective vaccines elicit specific, robust, and durable adaptive immune responses. To advance...