Modulation of antigen delivery and lymph node activation in nonhuman primates by saponin adjuvant saponin/monophosphoryl lipid A nanoparticle
Parisa Yousefpour, Yiming J. Zhang, Laura Maiorino, Mariane B. Melo, Mariluz A. Arainga Ramirez, Sidath C. Kumarapperuma, Peng Xiao, Murillo Silva, Na Li, Katarzyna Kaczmarek Michaels, Erik Georgeson, Saman Eskandarzadeh, Michael Kubitz, Bettina Gröschel, Kashif Qureshi, Jane Fontenot, Lars Hangartner, Rebecca Nedellec, J. Christopher Love, Dennis R. Burton, William R. Schief, François Villinger, Darrell J. Irvine
Abstract
Saponin-based vaccine adjuvants are potent in preclinical animal models and humans, but their mechanisms of action remain poorly understood. Here, using a stabilized HIV envelope trimer immunogen, we carried out studies in nonhuman primates (NHPs) comparing the most common clinical adjuvant aluminum hydroxide (alum) with saponin/monophosphoryl lipid A nanoparticles (SMNP), an immune-stimulating complex-like adjuvant. SMNP elicited substantially stronger humoral immune responses than alum, including 7-fold higher peak antigen-specific germinal center B-cell responses, 18-fold higher autologous neutralizing antibody titers, and higher levels of antigen-specific plasma and memory B cells. Positron emission tomography and computed tomography imaging in live NHPs showed that, unlike alum, SMNP promoted rapid antigen accumulation in both proximal and distal lymph nodes (LNs). SMNP also induced strong type I interferon transcriptional signatures, expansion of innate immune cells, and increased antigen-presenting cell activation in LNs. These findings indicate that SMNP promotes multiple facets of the early immune response relevant for enhanced immunity to vaccination.