Abstract
BackgroundThe respiratory syncytial virus (RSV) fusion glycoprotein (F) is a molecule that fuses the viral and host cell membranes during virus entry as it rearranges from a meta-stable prefusion to a stable postfusion conformation. Using structure-guided design, Pfizer engineered a prefusion RSV F subunit vaccine antigen with stable and well-characterized conformational homogeneity.MethodsWe report results of a 1,182 subject, first-in-human, phase 1/2, placebo-controlled, randomized, observer-blind, dose-finding study to describe the safety, tolerability, and immunogenicity of the Pfizer RSV vaccine candidate in healthy men and non-pregnant women from 18 to 85 years of age. The study compares three dosages of the vaccine candidate, with and without aluminum hydroxide, and also compares immunization with the RSV vaccine candidate alone or concomitantly with influenza vaccine. The study is ongoing to collect antibody persistence and additional safety data.ResultsThe data, which are currently available for the 18- to 49-year-old subgroup, demonstrate an excellent safety and tolerability profile. Immunization with the various formulations of the vaccine candidate elicited RSV 50% neutralization titer geometric mean fold rises (GMFRs) of 10.6–17.2 for subgroup A and 10.4–19.8 for subgroup B, measured one month after immunization, with evidence of a dose–response.ConclusionThe 10- to 20-fold increases in neutralizing antibody titers elicited by this vaccine with a stable prefusion F antigen represent a step change relative to the historical performance of vaccine candidates, such as Wyeth’s PFP, with F antigens that were not stabilized in the prefusion conformation (Simoes et al., Vaccine 20:954–60, 2002). The data strongly support development of this vaccine candidate to prevent RSV disease in infants, by immunizing pregnant women, and to prevent RSV disease in older adults, by direct immunization.Disclosures All authors: No reported disclosures.
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