Project description:<p>The study sequenced antibody heavy chain gene rearrangements from 4 identical twin pairs undergoing vaccination with Varicella Zoster viral vaccine.</p>

Project description:The goal of this study is to characterize the human immune responses to the live attenuated Herpes zoster vaccine Zostavax, to understand the molecular and cellular mechanisms that lead to antibody production and T cell induction, and to understand the difference between young and elderly healthy adults. The overall data collection included antigen specific assays, flow cytometric profiling of innate and adaptive cell populations, measurement of serum cytokines, and transcriptomic and metabolomics signatures. Zostavax induced robust antigen-specific antibody responses, and significant T cell responses. A number of gene pathways were upregulated after vaccination. Using our previously developed blood transcription modules, we also identified transcriptomic correlates to antibody response. Furthermore, this study revealed strong association between PBMC transcriptomics and plasma metabolomics. Integrative analysis of orthogonal datasets from metabolomics, transcriptomic and immune profiling facilitated a temporal reconstruction of Zostavax induced biological networks culminating in antibody responses , and the delineation of novel molecular correlates of vaccine immunity.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:T-Cell Responses to Varicella Zoster Virus

Project description:Influenza-specific effector memory B cells predict long-lived antibody responses to vaccination in humans

Project description:This SuperSeries is composed of the following subset Series: GSE6871: Gene expression signatures that predict radiation exposure (human) GSE6873: Gene expression signatures that predict radiation exposure (mouse) Keywords: SuperSeries Refer to individual Series

Project description:To characterize the primary and recall responses to EV71 vaccines, PBMC from 19 recipients before and after vaccination with EV71 vaccine are collected and their gene expression signatures after stimulation with EV71 antigen were compared. Four-condition experiment,pre-vaccination PBMCs (stimulation vs. no stimulation with EV71 antigen) vs. post-vaccination PBMCs (stimulation vs. no stimulation with EV71 antigen)

Project description:Influenza-specific effector memory B cells predict long-lived antibody responses to vaccination in humans [scRNA-Seq]

Project description:Influenza-specific effector memory B cells predict long-lived antibody responses to vaccination in humans [Rep-Seq]

Project description:Responses to Varicella Zoster Virus Vaccination