EMBO Molecular Medicine (Jul 2022)

A novel platform for attenuating immune hyperactivity using EXO‐CD24 in COVID‐19 and beyond

  • Shiran Shapira,
  • Marina Ben Shimon,
  • Mori Hay‐Levi,
  • Gil Shenberg,
  • Guy Choshen,
  • Lian Bannon,
  • Michael Tepper,
  • Dina Kazanov,
  • Jonathan Seni,
  • Shahar Lev‐Ari,
  • Michael Peer,
  • Dimitrios Boubas,
  • Justin Stebbing,
  • Sotirios Tsiodras,
  • Nadir Arber

DOI
https://doi.org/10.15252/emmm.202215997
Journal volume & issue
Vol. 14, no. 9
pp. 1 – 17

Abstract

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Abstract A small but significant proportion of COVID‐19 patients develop life‐threatening cytokine storm. We have developed a new anti‐inflammatory drug, EXO‐CD24, a combination of an immune checkpoint (CD24) and a delivery platform (exosomes). CD24 inhibits the NF‐kB pathway and the production of cytokines/chemokines. EXO‐CD24 discriminates damage‐from pathogen‐associated molecular patterns (DAMPs and PAMPs) therefore does not interfere with viral clearance. EXO‐CD24 was produced and purified from CD24‐expressing 293‐TREx™ cells. Exosomes displaying murine CD24 (mCD24) were also created. EXO‐CD24/mCD24 were characterized and examined, for safety and efficacy, in vitro and in vivo. In a phase Ib/IIa study, 35 patients with moderate–high severity COVID‐19 were recruited and given escalating doses, 108–1010, of EXO‐CD24 by inhalation, QD, for 5 days. No adverse events related to the drug were observed up to 443–575 days. EXO‐CD24 effectively reduced inflammatory markers and cytokine/chemokine, although randomized studies are required. EXO‐CD24 may be a treatment strategy to suppress the hyper‐inflammatory response in the lungs of COVID‐19 patients and further serve as a therapeutic platform for other pulmonary and systemic diseases characterized by cytokine storm.

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