Bioengineering & Translational Medicine (Jul 2024)

Engineering a “muco‐trapping” ACE2‐immunoglobulin hybrid with picomolar affinity as an inhaled, pan‐variant immunotherapy for COVID‐19

  • Karthik Tiruthani,
  • Carlos Cruz‐Teran,
  • Jasper F. W. Chan,
  • Alice Ma,
  • Morgan McSweeney,
  • Whitney Wolf,
  • Shoufeng Yuan,
  • Vincent K. M. Poon,
  • Chris C. S. Chan,
  • Lakshmi Botta,
  • Brian Farrer,
  • Ian Stewart,
  • Alison Schaefer,
  • Jasmine Edelstein,
  • Priya Kumar,
  • Harendra Arora,
  • Jeff T. Hutchins,
  • Anthony J. Hickey,
  • Kwok‐Yung Yuen,
  • Samuel K. Lai

DOI
https://doi.org/10.1002/btm2.10650
Journal volume & issue
Vol. 9, no. 4
pp. n/a – n/a

Abstract

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Abstract Soluble angiotensin‐converting enzyme 2 (ACE2) can act as a decoy molecule that neutralizes severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2) by blocking spike (S) proteins on virions from binding ACE2 on host cells. Based on structural insights of ACE2 and S proteins, we designed a “muco‐trapping” ACE2‐Fc conjugate, termed ACE2‐(G4S)6‐Fc, comprised of the extracellular segment of ACE2 (lacking the C‐terminal collectrin domain) that is linked to mucin‐binding IgG1‐Fc via an extended glycine‐serine flexible linker. ACE2‐(G4S)6‐Fc exhibits substantially greater binding affinity and neutralization potency than conventional full length ACE2‐Fc decoys or similar truncated ACE2‐Fc decoys without flexible linkers, possessing picomolar binding affinity and strong neutralization potency against pseudovirus and live virus. ACE2‐(G4S)6‐Fc effectively trapped fluorescent SARS‐CoV‐2 virus like particles in fresh human airway mucus and was stably nebulized using a commercial vibrating mesh nebulizer. Intranasal dosing of ACE2‐(G4S)6‐Fc in hamsters as late as 2 days postinfection provided a 10‐fold reduction in viral load in the nasal turbinate tissues by Day 4. These results strongly support further development of ACE2‐(G4S)6‐Fc as an inhaled immunotherapy for COVID‐19, as well as other emerging viruses that bind ACE2 for cellular entry.

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