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Components of a HIV-1 vaccine mediate virus-like particle (VLP)-formation and display of envelope proteins exposing broadly neutralizing epitopes

Elsevier, Virology, Volume 568, March 2022
Authors
Rosengarten J.F., Schatz S., Wolf T., Barbe S., Stitz J.

The sequence diversity of HIV-1 is the biggest hurdle for the design of a prophylactic vaccine. Mosaic (Mos) antigens consisting of synthetically shuffled epitopes from various HIV-1 strains are currently tested in the clinical vaccine trial Mosaico (NCT03964415). Besides adenovirus vectors encoding variants of Mos.Gag-Pol and soluble Mos.Env proteins, the Mosaico vaccine entails vectors mediating gene transfer and expression of the membrane-anchored Env-variant Mos2S.Env. We thus examined whether the expression of mosaic Gag mediates the formation of virus-like particles (VLPs). Mos1.Gag- and Mos2.Gag-VLP-formation was readily detected using Western blot- and electron microscopic-analysis. Upon co-expression of both mosaic Gag variants with Mos2S.Env, incorporation of Env into Gag-formed VLPs was observed. The display of the respective neutralization-sensitive target epitopes on Mos2S.Env-decorated VLPs was demonstrated employing a panel of broadly neutralizing antibodies (bNAbs) in a VLP-capture assay. This opens new perspectives for future HIV vaccine designs.

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