BackgroundRecombination technology can be used to create live attenuated respiratory syncytial virus (RSV) vaccines that contain combinations of known attenuating mutations

MethodsTwo live attenuated, recombinantly derived RSV vaccine candidates, rA2cp248/404ΔSH and rA2cp248/404/1030ΔSH, were evaluated in 31 adults and in 95 children ⩾6 months old. rA2cp248/404/1030ΔSH was subsequently evaluated in 44 infants 1–2 months old. These vaccine candidates share 4 attenuating genetic elements and differ only in a missense mutation (1030) in the polymerase gene

ResultsBoth vaccines were highly attenuated in adults and RSV-seropositive children and were well tolerated and immunogenic in RSV-seronegative children. Compared with that of rA2cp248/404ΔSH, replication of rA2cp248/404/1030ΔSH was restricted in RSV-seronegative children (mean peak titer, 10^4.3 vs. 10^2.5 plaque-forming units [pfu]/mL), indicating that the 1030 mutation had a potent attenuating effect. Although rA2cp248/404/1030ΔSH was well tolerated in infants, only 44% of infants who received two 10^5.3-pfu doses of vaccine had detectable antibody responses. However, replication after administration of the second dose was highly restricted, indicating that protective immunity was induced. At least 4 of 5 attenuating genetic elements were retained in recovered vaccine viruses

ConclusionsrA2cp248/404/1030ΔSH is the first RSV vaccine candidate to be sufficiently attenuated in young infants. Additional studies are needed to determine whether rA2cp248/404/1030ΔSH can induce protective immunity against wild-type RSV