Igy antibodies against ebola virus possess post-exposure protection in a murine pseudovirus challenge model and excellent thermostability

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Abstract

Ebola virus (EBOV) is one of the most virulent pathogens that causes hemorrhagic fever and displays high mortality rates and low prognosis rates in both humans and nonhuman pri-mates. The post-exposure antibody therapies to prevent EBOV infection are considered effective as of yet. However, owing to the poor thermal stability of mammalian antibodies, their application in the tropics has remained limited. Therefore, a thermostable therapeutic antibody against EBOV was developed modelled on the poultry(chicken) immunoglobulin Y (IgY). The IgY antibodies retaining their neutralising activity at 25˚C for one year, displayed excellent thermal stability, opposed to conventional polyclonal antibodies (pAbs) or mono-clonal antibodies (mAbs). Laying hens were immunised with a variety of EBOV vaccine can-didates and it was confirmed that VSVΔG/EBOVGP encoding the EBOV glycoprotein could induce high titer neutralising antibodies against EBOV. The therapeutic efficacy of immune IgY antibodies in vivo was evaluated in the newborn Balb/c mice who have been challenged with the VSVΔG/EBOVGP model. Mice that have been challenged with a lethal dose of the pseudovirus were treated 2 or 24 h post-infection with different doses of anti-EBOV IgY. The group receiving a high dose of 106 NAU/kg (neutralising antibody units/kilogram) showed complete protection with no symptoms of a disease, while the low-dose group was only par-tially protected. Conversely, all mice receiving naive IgY died within 10 days. In conclusion, the anti-EBOV IgY exhibits excellent thermostability and protective efficacy. Anti-EBOV IgY shows a lot of promise in entering the realm of efficient Ebola virus treatment regimens.

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Zhang, Y., Wei, Y., Li, Y., Wang, X., Liu, Y., Tian, D., … Yang, L. (2021). Igy antibodies against ebola virus possess post-exposure protection in a murine pseudovirus challenge model and excellent thermostability. PLoS Neglected Tropical Diseases, 15(3). https://doi.org/10.1371/journal.pntd.0008403

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