Portal de Periódicos da CAPES

Rational design of uncleaved prefusion-closed trimer vaccines for human respiratory syncytial virus and metapneumovirus

2024; Nature Portfolio; Volume: 15; Issue: 1 Linguagem: Inglês

10.1038/s41467-024-54287-x

2041-1723

Yi-Zong Lee, Jerome Han, Yi-Nan Zhang, Garrett Ward, Keegan Braz Gomes, Sarah Auclair, Robyn L. Stanfield, Linling He, Ian A. Wilson, Jiang Zhu,

Parvovirus B19 Infection Studies

Respiratory syncytial virus (RSV) and human metapneumovirus (hMPV) cause human respiratory diseases and are major targets for vaccine development. In this study, we design uncleaved prefusion-closed (UFC) trimers for the fusion protein (F) of both viruses by examining mutations critical to F metastability. For RSV, we assess four previous prefusion F designs, including the first and second generations of DS-Cav1, SC-TM, and 847A. We then identify key mutations that can maintain prefusion F in a native-like, closed trimeric form (up to 76%) without introducing any interprotomer disulfide bond. For hMPV, we develop a stable UFC trimer with a truncated F2-F1 linkage and an interprotomer disulfide bond. Dozens of UFC constructs are characterized by negative-stain electron microscopy (nsEM), x-ray crystallography (11 RSV-F structures and one hMPV-F structure), and antigenic profiling. Using an optimized RSV-F UFC trimer as bait, we identify three potent RSV neutralizing antibodies (NAbs) from a phage-displayed human antibody library, with a public NAb lineage targeting sites Ø and V and two cross-pneumovirus NAbs recognizing site III. In mouse immunization, rationally designed RSV-F and hMPV-F UFC trimers induce robust antibody responses with high neutralizing titers. Our study provides a foundation for future prefusion F-based RSV and hMPV vaccine development. RSV and hMPV infections pose significant health risks in vulnerable populations. Here, the authors used a systematic approach to identify mutations critical for fusion protein metastability and rationally design uncleaved prefusion-closed trimers for RSV and hMPV F proteins that induce robust antibody responses in vivo.