Scientific Reports (Aug 2022)

Directing HIV-1 for degradation by non-target cells, using bi-specific single-chain llama antibodies

  • Jord C. Stam,
  • Steven de Maat,
  • Dorien de Jong,
  • Mathia Arens,
  • Fenna van Lint,
  • Lavina Gharu,
  • Mark H. van Roosmalen,
  • Rob C. Roovers,
  • Nika M. Strokappe,
  • Ralf Wagner,
  • Alexander Kliche,
  • Hans J. de Haard,
  • Paul M. van Bergen en Henegouwen,
  • Monique Nijhuis,
  • C. Theo Verrips

DOI
https://doi.org/10.1038/s41598-022-15993-y
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 14

Abstract

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Abstract While vaccination against HIV-1 has been so far unsuccessful, recently broadly neutralizing antibodies (bNAbs) against HIV-1 envelope glycoprotein were shown to induce long-term suppression in the absence of antiretroviral therapy in patients with antibody-sensitive viral reservoirs. The requirement of neutralizing antibodies indicates that the antibody mediated removal (clearance) of HIV-1 in itself is not efficient enough in these immune compromised patients. Here we present a novel, alternative approach that is independent of a functional immune system to clear HIV-1, by capturing the virus and redirecting it to non-target cells where it is internalized and degraded. We use bispecific antibodies with domains derived from small single chain Llama antibodies (VHHs). These bind with one domain to HIV-1 envelope proteins and with the other domain direct the virus to cells expressing epidermal growth factor receptor (EGFR), a receptor that is ubiquitously expressed in the body. We show that HIV envelope proteins, virus-like particles and HIV-1 viruses (representing HIV-1 subtypes A, B and C) are efficiently recruited to EGFR, internalized and degraded in the lysosomal pathway at low nM concentrations of bispecific VHHs. This directed degradation in non-target cells may provide a clearance platform for the removal of viruses and other unwanted agents from the circulation, including toxins, and may thus provide a novel method for curing.