CHIP-Seq analysis of CREB1 binding after ALVAC vaccination in NHP
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ABSTRACT: The RV144 HIV vaccine trial remains the only study to demonstrate significant protection from future HIV-1 acquisition. One of the key components of the RV144 vaccine was the use of the canarypox vector ALVAC as the priming component. Since AIDSVAX, the booster component, alone failed to provide protection we hypothesized that the ALVAC prime contributed significantly to the generation of protection. To test this, we designed a NHP immunogenicity trial to mechanistically link ALVAC vaccination with the magnitude of V1V2 titers, the most significant immune correlate of reduced HIV-1 acquisition in RV144. Our objective was to use a systems biology approach to identify the transcription factors, target genes and immune pathways which were being induced by ALVAC vaccination and associated with higher V1V2 titers. We identified the transcription factor CREB1 and its target genes as rapidly induced by ALVAC in multiple immune subsets and that CREB1 drives the expression and activation of a network of other TFs which are critical for modulating immune responses. Pathways induced by this ALVAC-CREB1 axis include lymphocyte/leukocyte migration, lymphocyte differentiation, antigen processing and presentation, T cell co-stimulation and cytokine signaling.
ORGANISM(S): Macaca mulatta
PROVIDER: GSE180748 | GEO | 2021/07/25
REPOSITORIES: GEO
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