Landscapes of binding antibody and T-cell responses to pox-protein HIV vaccines in Thais and South Africans.
Lue Ping ZhaoAndrew-Fiore GartlandLindsay N CarppKristen W CohenNadine RouphaelLlewellyn FleursOne B DintweMichael ZhaoZoe MoodieYouyi FongSharana MahomedYing HuangCraig InnesHolly E JanesErica LazarusNelson L MichaelSorachai NitayaphanPunnee PitisuttithumSupachai Rerks-NgarmMerlin L RobbStephen C De RosaLawrence CoreyGlenda Elisabeth GrayKelly E SeatonNicole L YatesM Juliana McElrathNicole FrahmGeorgia D TomarasPeter B GilbertPublished in: PloS one (2020)
Our approach can be used to advance vaccine development objectives, including the characterization and comparison of candidate vaccine multivariate immune responses and improved design of studies to identify correlates of protection. For instance, results suggested that HVTN 702 will have adequate power to interrogate immune correlates involving anti-V1V2 IgG/IgG3 and CD4+ T-cell co-readouts, but will have lower power to study anti-gp120/gp140 IgG/IgG3 due to their lower dynamic ranges. The findings also generate hypotheses for future testing in experimental and computational analyses aimed at achieving a mechanistic understanding of vaccine-elicited immune response heterogeneity.