Functional and epigenetic changes in monocytes from adults immunized with an AS01-adjuvanted vaccine
Viviane Bechtold, Kinga K. Smolen, Wivine Burny, Simone Pietro De Angelis, Simon Delandre, Ahmed Essaghir, Arnaud Marchant, Cheikh Ndour, Martin Taton, Robbert van der Most, Fabienne Willems, Arnaud M. Didierlaurent
Abstract
The adjuvant AS01 plays a key role in the immunogenicity of several approved human vaccines with demonstrated high efficacy. Its adjuvant effect relies on activation of the innate immune system. However, specific effects of AS01-adjuvanted vaccines on innate cell function and epigenetic remodeling, as described for Bacille Calmette-Guérin (BCG) and influenza vaccines, are still unknown. We assessed the long-term functional and epigenetic changes in circulating monocytes and dendritic cells induced by a model vaccine containing hepatitis B surface antigen and AS01 in healthy adults (NCT01777295). The AS01-adjuvanted vaccine, but not an Alum-adjuvanted vaccine, increased the number of circulating monocytes and their expression of human leukocyte antigen (HLA)–DR, which correlated with the magnitude of the memory CD4 + T cell response. Single-cell analyses revealed epigenetic alterations in monocyte and dendritic cell subsets, affecting accessibility of transcription factors involved in cell functions including activator protein-1 ( AP-1 ), GATA , C/EBP , and interferon regulatory factor. The functional changes were characterized by a reduced proinflammatory response to Toll-like receptor activation and an improved response to interferon-γ, a cytokine critical for the adjuvant’s mode of action. Epigenetic changes were most evident shortly after the second vaccine dose in CD14 + monocytes, for which accessibility differences of some transcription factors could persist for up to 6 months postvaccination. Together, we show that reprogramming of monocyte subsets occurs after vaccination with an AS01-adjuvanted vaccine, an effect that may contribute to the impact of vaccination beyond antigen-specific protection.