1. Identification and characterization of a nonbiological small-molecular mimic of a Zika virus conformational neutralizing epitope.
- Author
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Castanha, Priscila M. S., McEnaney, Patrick J., Yongseok Park, Bouwer, Anthea, Chaves, Elton J. F., Lins, Roberto D., Paciaroni, Nicholas G., Dickson, Paige, Carlson, Graham, Cordeiro, Marli T., Magalhaes, Tereza, Craigo, Jodi, Marques, Ernesto T. A., Kodadek, Thomas, and Burke, Donald S.
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ZIKA virus , *MOLECULAR structure , *SMALL molecules , *ZIKA virus infections , *VACCINE effectiveness - Abstract
Antigenic similarities between Zika virus (ZIKV) and other flaviviruses pose challenges to the development of virus-specific diagnostic tools and effective vaccines. Starting with a DNA-encoded one-bead-one-compound combinatorial library of 508,032 synthetic, non-natural oligomers, we selected and characterized small molecules that mimic ZIKV epitopes. High-throughput fluorescence-activated cell sorter-based bead screening was used to select molecules that bound IgG from ZIKV-immune but not from dengue-immune sera. Deep sequencing of the DNA from the "Zika-only" beads identified 40 candidate molecular structures. A lead candidate small molecule "CZV1-1" was selected that correctly identifies serum specimens from Zika-experienced patients with good sensitivity and specificity (85.3% and 98.4%, respectively). Binding competition studies of purified anti-CZV1-1 IgG against known ZIKV-specific monoclonal antibodies (mAbs) showed that CZV1-1 mimics a nonlinear, neutralizing conformational epitope in the domain III of the ZIKV envelope. Purified anti-CZV1-1 IgG neutralized infection of ZIKV in cell cultures with potencies comparable to highly specific ZIKV-neutralizing mAbs. This study demonstrates an innovative approach for identification of synthetic non-natural molecular mimics of conformational virus epitopes. Such molecular mimics may have value in the development of accurate diagnostic assays for Zika, as well as for other viruses. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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