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Merck

Ebola and Marburg virus VP35 coiled-coil validated as antiviral target by tripartite split-GFP complementation.

iScience (2022-11-04)
Luca Zinzula, Angela Maria Mereu, Massimiliano Orsini, Christine Seeleitner, Andreas Bracher, István Nagy, Wolfgang Baumeister
RESUMEN

Ebola virus (EBOV) and Marburg virus (MARV) are highly pathogenic viruses in humans, against which approved antivirals are lacking. During EBOV and MARV infection, coiled-coil mediated oligomerization is essential for the virion protein 35 (VP35) polymerase co-factor function and type I interferon antagonism, making VP35 coiled-coil an elective drug target. We established a tripartite split-green fluorescent protein (GFP) fluorescence complementation (FC) system based on recombinant GFP-tagged EBOV and MARV VP35, which probes VP35 coiled-coil assembly by monitoring fluorescence on E. coli colonies, or in vitro in 96/384-multiwell. Oligomerization-defective VP35 mutants showed that correct coiled-coil knobs-into-holes pairing within VP35 oligomer is pre-requisite for GFP tags and GFP detector to reconstitute fluorescing full-length GFP. The method was validated by screening a small compound library, which identified Myricetin and 4,5,6,7-Tetrabromobenzotriazole as inhibitors of EBOV and MARV VP35 oligomerization-dependent FC with low-micromolar IC50 values. These findings substantiate the VP35 coiled-coil value as antiviral target.

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Roche
ADNasa I, grade II, from bovine pancreas
Sigma-Aldrich
Prasugrel, ≥98% (HPLC)
Sigma-Aldrich
TBB, ≥98% (HPLC), solid