The hinge-engineered IgG1-IgG3 hybrid subclass IgGh47 potently enhances Fc-mediated function of anti-streptococcal and SARS-CoV-2 antibodies - Inria - Institut national de recherche en sciences et technologies du numérique Access content directly
Journal Articles Nature Communications Year : 2024

The hinge-engineered IgG1-IgG3 hybrid subclass IgGh47 potently enhances Fc-mediated function of anti-streptococcal and SARS-CoV-2 antibodies

Arman Izadi
Lund University
Yasaman Karami
Laboratoire Lorrain de Recherche en Informatique et ses Applications
Bioinformatique structurale - Structural Bioinformatics
Eleni Bratanis
Lund University
Sebastian Wrighton
Lund University
Hamed Khakzad
Laboratoire Lorrain de Recherche en Informatique et ses Applications
Maria Nyblom
  • Function : Author
Lund University
Berit Olofsson
Lund University
Lotta Happonen
Lund University
Di Tang
Lund University
Martin Sundwall
Lund University
Magdalena Godzwon
  • Function : Author
Lund University
Yashuan Chao
Lund University
Alejandro Gomez Toledo
Lund University
Tobias Schmidt
Lund University
Mats Ohlin
Lund University
Michael Nilges
Bioinformatique structurale - Structural Bioinformatics
Johan Malmström
Lund University
Wael Bahnan
  • Function : Author
Lund University
Oonagh Shannon
Lund University
Malmö Högskola = Malmö University
Lars Malmström
Lund University
Pontus Nordenfelt
  • Function : Correspondent author
  • PersonId : 1345202

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Lund University

Abstract

Abstract Streptococcus pyogenes can cause invasive disease with high mortality despite adequate antibiotic treatments. To address this unmet need, we have previously generated an opsonic IgG1 monoclonal antibody, Ab25, targeting the bacterial M protein. Here, we engineer the IgG2-4 subclasses of Ab25. Despite having reduced binding, the IgG3 version promotes stronger phagocytosis of bacteria. Using atomic simulations, we show that IgG3’s Fc tail has extensive movement in 3D space due to its extended hinge region, possibly facilitating interactions with immune cells. We replaced the hinge of IgG1 with four different IgG3-hinge segment subclasses, IgGh xx . Hinge-engineering does not diminish binding as with IgG3 but enhances opsonic function, where a 47 amino acid hinge is comparable to IgG3 in function. IgGh 47 shows improved protection against S. pyogenes in a systemic infection mouse model, suggesting that IgGh 47 has promise as a preclinical therapeutic candidate. Importantly, the enhanced opsonic function of IgGh 47 is generalizable to diverse S. pyogenes strains from clinical isolates. We generated IgGh 47 versions of anti-SARS-CoV-2 mAbs to broaden the biological applicability, and these also exhibit strongly enhanced opsonic function compared to the IgG1 subclass. The improved function of the IgGh 47 subclass in two distant biological systems provides new insights into antibody function.

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Life Sciences [q-bio]
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https://hal.science/hal-04567019

Submitted on : Thursday, May 2, 2024-9:26:40 PM

Last modification on : Saturday, May 4, 2024-3:17:47 AM

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hal-04567019 , version 1 (02-05-2024)

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Arman Izadi, Yasaman Karami, Eleni Bratanis, Sebastian Wrighton, Hamed Khakzad, et al.. The hinge-engineered IgG1-IgG3 hybrid subclass IgGh47 potently enhances Fc-mediated function of anti-streptococcal and SARS-CoV-2 antibodies. Nature Communications, 2024, 15 (1), pp.3600. ⟨10.1038/s41467-024-47928-8⟩. ⟨hal-04567019⟩

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