A modified cyclosporine enhances lentivector transduction ex vivo and in vivo by degrading IFITM3

  1. Dara Annett
  2. Kate L. Morling
  3. Bethan J. Critchley
  4. Ben Graham
  5. Valeria Pingitore
  6. Thomas E. Whittaker
  7. Nada Kurdi
  8. Justin Warne
  9. Diego León-Rico
  10. Nihansu Kuru
  11. Sara Toros
  12. Tasnim Nurullah
  13. Aura Hare
  14. Matthew V. X. Whelan
  15. Edith A. W. Chan
  16. Richard S. B. Milne
  17. Lydia S. Newton
  18. Hashim Ali
  19. Kate Powell
  20. Matteo Rizzi
  21. Adrian J. Thrasher
  22. Giorgia Santilli
  23. Lucy G. Thorne
  24. David L. Selwood
  25. Greg J. Towers
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Abstract

Intrinsic innate immune barriers have evolved to suppress viral infection and can reduce effective gene delivery in gene therapy. We have developed BG147, a novel cyclosporine A analogue, optimised via structure-guided design to prevent inhibition of HIV cofactor Cyclophilin A and to specifically inhibit interferon-induced transmembrane proteins (IFITM1-3). BG147 enhances VSV-G pseudotyped lentiviral vector transduction ex vivo in hematopoietic stem and progenitor cells (HSPCs) and in in vivo ocular gene therapy of photoreceptor cells in mice. Upon BG147 treatment, IFITM proteins are mislocalised and degraded through lysosomal acidification-dependent pathways. IFITM3 levels functionally return in cells 96 h after BG147 washout. BG147 promises to transform ex vivo and in vivo eye gene therapies by transiently inhibiting intrinsic immune barriers mediated by IFITM proteins to enhance a wide range of protocols.

One Sentence Summary

Modified cyclosporine, BG147, enhances lentivector gene therapy transduction, ex vivo in HSPC and in vivo in mouse photoreceptors, by degrading IFITM3.

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