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In vivo neutralization of coral snake venoms with an oligoclonal nanobody mixture in a murine challenge model.

Melisa Bénard-ValleYessica WoutersAnne LjungarsGiang Thi Tuyet NguyenShirin AhmadiTasja Wainani EbersoleCamilla Holst DahlAlid Guadarrama-MartínezFrederikke JeppesenHelena EriksenGibran Rodríguez-BarreraKim BoddumTimothy Patrick JenkinsSara Petersen BjørnSanne SchoffelenBjørn Gunnar VoldborgAlejandro AlagónAndreas Hougaard Laustsen
Published in: Nature communications (2024)
Oligoclonal mixtures of broadly-neutralizing antibodies can neutralize complex compositions of similar and dissimilar antigens, making them versatile tools for the treatment of e.g., infectious diseases and animal envenomations. However, these biotherapeutics are complicated to develop due to their complex nature. In this work, we describe the application of various strategies for the discovery of cross-neutralizing nanobodies against key toxins in coral snake venoms using phage display technology. We prepare two oligoclonal mixtures of nanobodies and demonstrate their ability to neutralize the lethality induced by two North American coral snake venoms in mice, while individual nanobodies fail to do so. We thus show that an oligoclonal mixture of nanobodies can neutralize the lethality of venoms where the clinical syndrome is caused by more than one toxin family in a murine challenge model. The approaches described may find utility for the development of advanced biotherapeutics against snakebite envenomation and other pathologies where multi-epitope targeting is beneficial.
Keyphrases
  • infectious diseases
  • ionic liquid
  • dengue virus
  • escherichia coli
  • small molecule
  • pseudomonas aeruginosa
  • high throughput
  • cancer therapy
  • drug delivery
  • immune response
  • cystic fibrosis
  • combination therapy