Germline-targeting HIV Envelope SOSIP immunization more frequently elicits broadly-neutralizing antibody precursor responses in infant compared to juvenile rhesus macaques

A vaccine capable of inducing broadly neutralizing antibodies (bnAbs) is essential for effective prevention against HIV in children and adolescents. Germline-targeting vaccine strategies aim to stimulate bnAb precursor B cells through carefully designed immunogens, such as the stabilized SOSIP trimers, which mimic native HIV envelope (Env) proteins while presenting key neutralizing epitopes to germline B cell receptors. Given the ability of children living with HIV to develop bnAbs earlier and at a higher frequency than adults, we compared the immunogenicity of a CD4 binding site (CD4bs) bnAb germline-targeting SOSIP trimer immunization strategy in infant (n = 5) and juvenile (n = 4) rhesus macaques (RMs). Animals received 3 doses of the germline-targeting BG505 GT1.1 immunogen, followed by 3 boosts of wild-type BG505 SOSIP, each adjuvanted with the TLR7/8 agonist, 3M-052-SE. After 1.5 years, the RMs were further boosted with a mixed clade B Env trimer nanoparticle to enhance heterologous virus neutralization responses. This germline-targeting strategy induced equivalent titers of neutralizing antibodies in both groups of RMs, yet the infants exhibited a higher magnitude of vaccine-specific IgG binding. Notably, after 3 doses of BG505 GT1.1 SOSIP, infants had higher BG505 GT1.1-specific IgD- B cells. Upon completion of the vaccine regimen, 4 of 5 infants developed a CD4bs bnAb precursor response detectable in serum compared to only 1 of 4 juveniles. Finally, administration of the mixed clade B nanoparticle was able to increase the breadth of antibody responses in 3 of 5 infants and 2 of 4 juveniles. These results suggest that immunization in early-life may enhance bnAb induction and highlight the potential for future pediatric HIV-1 vaccine strategies.