Abstract
Filoviruses (family Filoviridae) include five ebolaviruses and Marburg virus. These pathogens cause a rapidly progressing and severe viral disease with high mortality rates (generally 30-90%). Outbreaks of filovirus disease are sporadic and, until recently, were limited to less than 500 cases. However, the 2013-2016 epidemic in western Africa, caused by Ebola virus (EBOV), illustrated the potential of filovirus outbreaks to escalate to a much larger scale (over 28,000 suspected cases). mAbs against the envelope glycoprotein represent a promising therapeutic platform for managing filovirus infections. However, mAbs that exhibit neutralization or protective properties against multiple filoviruses are rare. Here we examined a panel of engineered bi- and trispecific antibodies, in which variable domains of mAbs that target epitopes from multiple filoviruses were combined, for their capacity to neutralize viral infection across filovirus species. We found that bispecific combinations targeting EBOV and Sudan virus (another ebolavirus), provide potent cross-neutralization and protection in mice. Furthermore, trispecific combinations, targeting EBOV, Sudan virus, and Marburg virus, exhibited strong neutralization potential against all three viruses. These results provide important insights into multispecific antibody engineering against filoviruses and will inform future immunotherapeutic discoveries.
Highlights
Filoviruses include five ebolaviruses and Marburg virus
We reported the construction and evaluation of bispecific antibody (bsAb) targeting the GP base epitope of Ebola virus (EBOV) and Sudan virus (SUDV) utilizing the scFv-Ig format [27]. For these bsAbs, we employed the variable domains of two humanized variants of SUDV mAb 16F6 (F4 and E10) and the human EBOV mAb KZ52
The structure–activity relationship studies reported here with different bsAb and trispecific antibodies (tsAbs) formats provide novel insights into requirements for cross-neutralization and crossprotection from filoviruses that can be utilized for future mAb engineering efforts
Summary
We reported the construction and evaluation of bsAbs targeting the GP base epitope of EBOV and SUDV utilizing the scFv-Ig format [27]. A tsAb containing F4 as the core IgG with scFvs of KZ52 and MR78 as fusions to the heavy chain C terminus and light chain N terminus, respectively, (“scKZ52(LCN)-scKZ52(HCC)-F4”) retained binding activity toward EBOV, SUDV, and MARV A tsAb bearing MR78 as the core IgG with scFvs MR78”) was able to bind and neutralize all three GPs. BLI meaof F4 and KZ52 appended as C-terminal fusions to the heavy surements provided apparent KD measurements in the doubleand light chains, respectively, (“scF4(HCC)-scKZ52(LCC)- digit nanomolar range against MARV and EBOV and ϳ650 nM. These results suggest that E10ϳ13C6 DVD Ig is strongly protective against EBOV but does not confer a statistically significant survival advantage for SUDV relative to the negative control mAb 6D8
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