C4BP-IgM protein as a therapeutic approach to treat Neisseria gonorrhoeae infections
Serena Bettoni, Jutamas Shaughnessy, Karolina Maziarz, David Ermert, Sunita Gulati, Bo Zheng, Matthias Mörgelin, Susanne Jacobsson, Kristian Riesbeck, Magnus Unemo, Sanjay Ram, Anna M. Blom
Serena Bettoni, Jutamas Shaughnessy, Karolina Maziarz, David Ermert, Sunita Gulati, Bo Zheng, Matthias Mörgelin, Susanne Jacobsson, Kristian Riesbeck, Magnus Unemo, Sanjay Ram, Anna M. Blom
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Research Article Infectious disease Therapeutics

C4BP-IgM protein as a therapeutic approach to treat Neisseria gonorrhoeae infections

Abstract

Gonorrhea is a sexually transmitted infection with 87 million new cases per year globally. Increasing antibiotic resistance has severely limited treatment options. A mechanism that Neisseria gonorrhoeae uses to evade complement attack is binding of the complement inhibitor C4b-binding protein (C4BP). We screened 107 porin B1a (PorB1a) and 83 PorB1b clinical isolates randomly selected from a Swedish strain collection over the last 10 years and noted that 96/107 (89.7%) PorB1a and 16/83 (19.3%) PorB1b bound C4BP; C4BP binding substantially correlated with the ability to evade complement-dependent killing (r = 0.78). We designed 2 chimeric proteins that fused C4BP domains to the backbone of IgG or IgM (C4BP-IgG; C4BP-IgM) with the aim of enhancing complement activation and killing of gonococci. Both proteins bound gonococci (KD C4BP-IgM = 2.4 nM; KD C4BP-IgG 980.7 nM), but only hexameric C4BP-IgM efficiently outcompeted heptameric C4BP from the bacterial surface, resulting in enhanced complement deposition and bacterial killing. Furthermore, C4BP-IgM substantially attenuated the duration and burden of colonization of 2 C4BP-binding gonococcal isolates but not a non–C4BP-binding strain in a mouse vaginal colonization model using human factor H/C4BP–transgenic mice. Our preclinical data present C4BP-IgM as an adjunct to conventional antimicrobials for the treatment of gonorrhea.

Authors

Serena Bettoni, Jutamas Shaughnessy, Karolina Maziarz, David Ermert, Sunita Gulati, Bo Zheng, Matthias Mörgelin, Susanne Jacobsson, Kristian Riesbeck, Magnus Unemo, Sanjay Ram, Anna M. Blom

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Figure 1

C4BP binds to N. gonorrhoeae.

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C4BP binds to N. gonorrhoeae. (A and B) Binding of C4BP from normal huma...
(A and B) Binding of C4BP from normal human serum (NHS; 10%) or purified Alexa Fluor 647–labeled C4BP (20 μg/mL) to 6 laboratory strains of N. gonorrhoeae. (C) Binding of Alexa Fluor 647–labeled C4BP to 4 laboratory strains of N. gonorrhoeae in the presence (with SA) or in the absence (without SA) of sialylation. (D and E) Binding of Alexa Fluor 647–labeled C4BP (20 μg/mL) to 190 clinical isolates of N. gonorrhoeae. The isolates are grouped according to their expressed subclass of PorB and anatomical site of isolation. In D, P value was calculated by Mann-Whitney U test (P < 0.0001). (F) Spearman’s correlation analysis of survival of gonococcal clinical isolates in 10% NHS versus their C4BP binding (r = 0.7825; P < 0.0001; n = 189). Serum-resistant isolates incapable of binding C4BP are highlighted in gray. In A, B, and C bars display mean ± SD, with circles indicating independent repeats. Dotted line refers to gMFI average value in the absence of protein. In D, E, and F dotted line refers to the cutoff for positivity (300 gMFI) calculated as gMFI mean value + 3 SD of unspecific background of signal obtained for strain 252 that does not bind C4BP; bars display median and circles correspond to the mean for each sample from 2 independent experiments performed in duplicate.