Lund University Publications

@phdthesis{84150f43-d941-45a6-9882-734041f4f41e,
  abstract     = {{Group A Streptococcus (GAS) is a significant human pathogen that has developed multiple<br/>immune evasion mechanisms to counter the host immune response. One of these mechanisms involves<br/>the production of the M protein, which, amongst other things, acts as an anti-phagocytic factor and can<br/>bind host proteins. Another is the ability of M protein to bind a human protein called fibronectin (Fn). This<br/>protein plays a key role in a number of physiological processes and can be used by GAS to evade the<br/>immune system. In this PhD dissertation, we aimed to assess the binding efficacy and function of<br/>monoclonal antibodies targeting the GAS M protein.<br/>In the first paper we start by developing a robust method to assess phagocytosis. This method highlights<br/>the importance of factors such as volume, time, and the ratio of phagocyte to prey on the phagocytic<br/>process. It has allowed us to, henceforth, attain precise, high quality phagocytosis data and has been a<br/>major driving force for other projects within the lab – especially the three other papers included in this<br/>thesis.<br/>In the second paper we discovered a novel form of antibody binding whereby a monoclonal binds the<br/>GAS M protein in a bivalent dual-Fab cis mode. This means that both Fab arms of the Ab bind to distinct<br/>epitopes on the target molecule simultaneously. Even so this antibody bound to a region of the M protein<br/>associated with non-opsonic antibodies we found that this Ab could enhance phagocytosis suggesting<br/>that this novel binding form can circumvent the M protein's anti-phagocytic properties.<br/>In the third paper we investigated the M protein’s ability to bind fibronectin. While this function was<br/>described in previous studies, we found it could only do so with very low affinity. We found that the binding<br/>of antibodies from the blood of donors who had recently recovered from a severe GAS infection could<br/>greatly enhance this fibronectin binding. We show that same occurs with certain anti-M monoclonals and<br/>that this mechanism leads to a reduction in opsonophagocytosis. Moreover we find that Ab flexibility may<br/>play a role and that Ab Fc domains are a crucial factor in mechanism.<br/>In the fourth paper we further explore this anti-phagocytic effect. Here we assess the effects of varying<br/>concentrations of Fn since this can differ greatly within the human body. We found that both very low and<br/>high concentrations of Fn, corresponding with the nasopharyngeal niche and blood respectively, led to a<br/>substantial reduction in phagocytosis. We moreover found that this reduction in phagocytosis is likely<br/>linked to a modulation of integrins. Overall, this work provides insights into immune evasion mechanisms<br/>developed by GAS and highlights how this remarkable pathogen always seems to be one step ahead of<br/>us.}},
  author       = {{Wrighton, Sebastian}},
  isbn         = {{978-91-8021-459-9}},
  issn         = {{1652-8220}},
  keywords     = {{group A streptococcus; Streptococcus pyogenes; fibronectin; phagocytosis; innate immunity; antibodies; adaptive immunity}},
  language     = {{eng}},
  number       = {{2023:118}},
  publisher    = {{Lund University, Faculty of Medicine}},
  school       = {{Lund University}},
  series       = {{Lund University, Faculty of Medicine Doctoral Dissertation Series}},
  title        = {{Exploring Monoclonal Antibody Action Against the Group A Streptococcal M Protein}},
  url          = {{https://lup.lub.lu.se/search/files/158820741/e_nailing_ex_Sebastian.pdf}},
  year         = {{2023}},
}