Fighting Staphylococcus aureus infections with light and photoimmunoconjugates
Mafalda Bispo, Andrea Anaya-Sanchez, Sabrina Suhani, Elisa J. M. Raineri, Marina López-Álvarez, Marjolein Heuker, Wiktor Szymański, Francisco Romero Pastrana, Girbe Buist, Alexander R. Horswill, Kevin P. Francis, Gooitzen M. van Dam, Marleen van Oosten, Jan Maarten van Dijl
Mafalda Bispo, Andrea Anaya-Sanchez, Sabrina Suhani, Elisa J. M. Raineri, Marina López-Álvarez, Marjolein Heuker, Wiktor Szymański, Francisco Romero Pastrana, Girbe Buist, Alexander R. Horswill, Kevin P. Francis, Gooitzen M. van Dam, Marleen van Oosten, Jan Maarten van Dijl
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Resource and Technical Advance Microbiology Therapeutics

Fighting Staphylococcus aureus infections with light and photoimmunoconjugates

Abstract

Infections caused by multidrug-resistant Staphylococcus aureus, especially methicillin-resistant S. aureus (MRSA), are responsible for high mortality and morbidity worldwide. Resistant lineages were previously confined to hospitals but are now also causing infections among healthy individuals in the community. It is therefore imperative to explore therapeutic avenues that are less prone to raise drug resistance compared with today’s antibiotics. An opportunity to achieve this ambitious goal could be provided by targeted antimicrobial photodynamic therapy (aPDT), which relies on the combination of a bacteria-specific targeting agent and light-induced generation of ROS by an appropriate photosensitizer. Here, we conjugated the near-infrared photosensitizer IRDye700DX to a fully human mAb, specific for the invariantly expressed staphylococcal antigen immunodominant staphylococcal antigen A (IsaA). The resulting immunoconjugate 1D9-700DX was characterized biochemically and in preclinical infection models. As demonstrated in vitro, in vivo, and in a human postmortem orthopedic implant infection model, targeted aPDT with 1D9-700DX is highly effective. Importantly, combined with the nontoxic aPDT-enhancing agent potassium iodide, 1D9-700DX overcomes the antioxidant properties of human plasma and fully eradicates high titers of MRSA. We show that the developed immunoconjugate 1D9-700DX targets MRSA and kills it upon illumination with red light, without causing collateral damage to human cells.

Authors

Mafalda Bispo, Andrea Anaya-Sanchez, Sabrina Suhani, Elisa J. M. Raineri, Marina López-Álvarez, Marjolein Heuker, Wiktor Szymański, Francisco Romero Pastrana, Girbe Buist, Alexander R. Horswill, Kevin P. Francis, Gooitzen M. van Dam, Marleen van Oosten, Jan Maarten van Dijl

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Figure 1

IsaA-specific targeting of 1D9-based immunoconjugates to the S. aureus cell surface.

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IsaA-specific targeting of 1D9-based immunoconjugates to the S. aureus c...
(A) Colocalization of the 1D9-Alexa555 (red) immunoconjugate with S. aureus SH1000 and MS001 ΔisaA stained with DAPI (gray). A total of 3 μg.mL–1 of 1D9-Alexa555 was incubated with diluted bacterial overnight cultures (OD600 = 1) and imaged with a confocal laser scanning microscope. (B) ROS production and localization of 1D9-700DX in S. aureus Newman WT determined by DAB photooxidation. Both samples contained 1 mg.mL–1 DAB (DAB+) and were irradiated with red light (60 J.cm–2; L+) for 10 minutes at 100 mW.cm–2 prior fixation. Samples were supplemented with 1.3 μM of the 1D9-700DX photosensitizer (P+) or PBS (P). Images were recorded by TEM. Intensity surface plots were created using FIRE LUT and the surface plot tool in ImageJ.