Frontiers in Immunology (Dec 2022)

Protein re-surfacing of E. coli L-Asparaginase to evade pre-existing anti-drug antibodies and hypersensitivity responses

  • Ali Bootwala,
  • Hyun Hwan An,
  • Meghan Whitney Franklin,
  • Benjamin J. Manning,
  • Lucy Y. Xu,
  • Shruti Panchal,
  • Joseph D. Garlick,
  • Reshica Baral,
  • Michael E. Hudson,
  • Gevorg Grigoryan,
  • Mark A. Murakami,
  • Kristen Hopson,
  • Daniel S. Leventhal

DOI
https://doi.org/10.3389/fimmu.2022.1016179
Journal volume & issue
Vol. 13

Abstract

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The optimal use of many biotherapeutics is restricted by Anti-drug antibodies (ADAs) and hypersensitivity responses which can affect potency and ability to administer a treatment. Here we demonstrate that Re-surfacing can be utilized as a generalizable approach to engineer proteins with extensive surface residue modifications in order to avoid binding by pre-existing ADAs. This technique was applied to E. coli Asparaginase (ASN) to produce functional mutants with up to 58 substitutions resulting in direct modification of 35% of surface residues. Re-surfaced ASNs exhibited significantly reduced binding to murine, rabbit and human polyclonal ADAs, with a negative correlation observed between binding and mutational distance from the native protein. Reductions in ADA binding correlated with diminished hypersensitivity responses in an in vivo mouse model. By using computational design approaches to traverse extended distances in mutational space while maintaining function, protein Re-surfacing may provide a means to generate novel or second line therapies for life-saving drugs with limited therapeutic alternatives.

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