Disease Models & Mechanisms (Sep 2020)

Pre-existing antibody-mediated adverse effects prevent the clinical development of a bacterial anti-inflammatory protein

  • Angelino T. Tromp,
  • Yuxi Zhao,
  • Ilse Jongerius,
  • Erik C. J. M. Heezius,
  • Pauline Abrial,
  • Maartje Ruyken,
  • Jos A. G. van Strijp,
  • Carla J. C. de Haas,
  • András N. Spaan,
  • Kok P. M. van Kessel,
  • Thomas Henry,
  • Pieter-Jan A. Haas

DOI
https://doi.org/10.1242/dmm.045534
Journal volume & issue
Vol. 13, no. 9

Abstract

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Bacterial pathogens have evolved to secrete strong anti-inflammatory proteins that target the immune system. It was long speculated whether these virulence factors could serve as therapeutics in diseases in which abnormal immune activation plays a role. We adopted the secreted chemotaxis inhibitory protein of Staphylococcus aureus (CHIPS) as a model virulence factor-based therapeutic agent for diseases in which C5AR1 stimulation plays an important role. We show that the administration of CHIPS in human C5AR1 knock-in mice successfully dampens C5a-mediated neutrophil migration during immune complex-initiated inflammation. Subsequent CHIPS toxicology studies in animal models were promising. However, during a small phase I trial, healthy human volunteers showed adverse effects directly after CHIPS administration. Subjects showed clinical signs of anaphylaxis with mild leukocytopenia and increased C-reactive protein concentrations, which are possibly related to the presence of relatively high circulating anti-CHIPS antibodies and suggest an inflammatory response. Even though our data in mice show CHIPS as a potential anti-inflammatory agent, safety issues in human subjects temper the use of CHIPS in its current form as a therapeutic candidate. The use of staphylococcal proteins, or other bacterial proteins, as therapeutics or immune-modulators in humans is severely hampered by pre-existing circulating antibodies.

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