Complement-bound human antibodies to vaccinia virus B5 antigen protect mice from virus challenge
- PMID: 20218853
- PMCID: PMC9491132
- DOI: 10.1586/erv.10.5
Complement-bound human antibodies to vaccinia virus B5 antigen protect mice from virus challenge
Abstract
The mechanism of protection afforded by vaccinia virus (VACV) - the smallpox vaccine - is a key issue for the development of modern vaccines and countermeasures. Antibodies to VACV antigens of the extracellular virion (EV) form play a central role in protection against poxvirus diseases in animal models, and contribute to the protection of immunized humans against poxviruses. B5, a viral EV protein, is conserved among different orthopoxviruses and antibodies to B5 that protect mice against VACV challenge. Antibodies to B5 are primarily responsible for neutralization of vaccinia EVs, yet the mechanism of EV neutralization by antibodies to B5 is not fully understood. The paper under evaluation demonstrates that most of the neutralization in vitro and protection in vivo in a mouse model, by monoclonal human anti-B5 IgGs, is heavily dependent on the ability of the IgGs to bind complement (C3 and C1q). Similarly, IgGs capable of complement binding control complement-dependent cytotoxicity of VACV-infected cells. Human polyclonal antibodies induced by the smallpox vaccine were similarly dependent on complement for EV neutralization and the complement-dependent destruction of infected cells. These findings not only contribute to a better understanding of the mechanism of protection by antibodies, but might also help in the development and evaluation of newly-developed therapeutic and prophylactic antibody-based products against virulent orthopoxviruses, and for the prevention or treatment of smallpox vaccine-related post-vaccinal adverse effects.
Comment on
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Heavily isotype-dependent protective activities of human antibodies against vaccinia virus extracellular virion antigen B5.J Virol. 2009 Dec;83(23):12355-67. doi: 10.1128/JVI.01593-09. Epub 2009 Sep 30. J Virol. 2009. PMID: 19793826 Free PMC article.
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