Inhibition of complement-mediated killing during acute gonorrhea is dependent upon the IgG2:IgG3 antibody ratio.
McKeand, Samantha A Faustini, Sian E Cook, Alex Kennett, Nikki Drayson, Mark T Cunningham, Adam F Henderson, Ian R Tang, Christoph M Ross, Jonathan D C Cole, Jeffrey A
McKeand, Samantha A
Faustini, Sian E
Cook, Alex
Kennett, Nikki
Drayson, Mark T
Cunningham, Adam F
Henderson, Ian R
Tang, Christoph M
Ross, Jonathan D C
Cole, Jeffrey A
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2026-01-30
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Abstract
Excessive binding of antibodies to the bacterial cell surface can paradoxically increase resistance of some Gram-negative pathogens to complement-mediated killing (CMK). We examined the CMK of 336 isolates from 283 participants recruited to a clinical trial. Serum bactericidal assays revealed 3% (9/283) of the autologous participant sera blocked CMK. Gonococci isolated from these participants were resistant to the autologous host serum, but sensitive to pooled healthy control sera (HCS) and protected by autologous host serum in a 1:1 mixture with HCS. Analysis of clinical metadata showed that there was a significantly higher proportion of blocking sera found in participants with urethral infection and from men within the transmission network of men who have sex with women, when compared to the whole cohort. Following antibody purification from participants with blocking sera (5/9), total IgG protected autologous isolates from HCS-mediated killing. A closer examination of IgG subclasses using whole gonococcal cell ELISAs revealed a significant correlation between increased IgG2 binding and decreased IgG3 binding to the cell surface of isolates that were resistant to CMK. This indicates that IgG2 prevents bactericidal IgG3 from initiating CMK, with an increased IgG2:IgG3 ratio blocking CMK of gonococci. We therefore reveal a previously unrecognized mechanism by which blocking antibodies prevent CMK of .
IMPORTANCE: The antigenic variation of and a limited mechanistic understanding of immune responses to this bacterium have presented multiple challenges to generating a protective vaccine. Here, we use a collection of clinical isolates ( = 336) for a robust analysis of the host immune response to infection. We reveal a mechanism for serum resistance in which some isolates of drive the production of inhibitory IgG2 antibodies, which block the activity of IgG3 bactericidal antibodies. Importantly, an increased ratio of IgG2:IgG3 bound to the bacterium promotes serum resistance. Recently, there has been increased interest in developing a vaccine against given the observation that the licensed outer membrane vesicle-based vaccine against (MeNZB) generated some cross-protection against . Thus, the mechanism described here should guide the development of a vaccine that simultaneously prevents serum resistance and promotes serum killing of the gonococcus.
Citation
McKeand SA, Faustini SE, Cook A, Kennett N, Drayson MT, Cunningham AF, Henderson IR, Tang CM, Ross JDC, Cole JA, Rossiter-Pearson AE. Inhibition of Neisseria gonorrhoeae complement-mediated killing during acute gonorrhea is dependent upon the IgG2:IgG3 antibody ratio. mBio. 2026 Jan 30:e0336723. doi: 10.1128/mbio.03367-23. Epub ahead of print.
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Article