Structures and functions of the limited natural polyclonal antibody response to parvovirus infection
成果类型:
Article
署名作者:
Adu, Oluwafemi F.; Lee, Hyunwook; Frueh, Simon P.; Schoenle, Marta, V; Weichert, Wendy S.; Flyak, Andrew I.; Hafenstein, Susan L.; Parrish, Colin R.
署名单位:
Cornell University; University of Minnesota System; University of Munich; University of Minnesota System; University of Minnesota Twin Cities; Mayo Clinic
刊物名称:
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
ISSN/ISSBN:
0027-11516
DOI:
10.1073/pnas.2423460122
发表日期:
2025-02-25
关键词:
feline panleukopenia virus
canine parvovirus
dependent enhancement
transferrin receptor
capsid structure
host
neutralization
binding
generation
mutations
摘要:
Host antibody responses are key components in the protection of animals against pathogens, yet the defining properties of viral antigens and induction of B cell responses that result in varied protection are still poorly understood. Parvoviruses are simple molecular structures that display 60 repeated motifs on their capsid surface, and rapidly induce strong antibody responses that protect animals from infection. We recently showed that following canine parvovirus infection of its natural host, the polyclonal response in the sera contained only two or three dominant antibodies that bound two epitopes on the capsid. Here, we characterize key antibodies present in that immune response, identifying their sequences, defining their binding properties on the capsid by cryoelectron microscopic (cryoEM) analysis, and testing their effects on viral infectivity. Two antibodies sharing the same heavy chain bound to the side of the capsid threefold spike (B- site), while another distinct antibody bound close to the threefold axis (A- site). The epitopes of these antibodies overlapped the binding site of the host receptor, the transferrin receptor type- 1, but to varying degrees. The antibodies varied widely in their neutralization efficiencies as either immunoglobulins (IgGs) or monomeric antigen- binding fragments (Fabs), which was consistent with their ability to compete for the receptor. The monoclonal antibodies characterized here matched the structures from the cryoEM analysis of polyclonal sera, including those present in a different dog than the monoclonal source. This shows that after infection, a focused response to the viral antigen is produced that protects against infection.