Version 2 2020-04-01, 15:41Version 2 2020-04-01, 15:41
Version 1 2020-03-27, 19:08Version 1 2020-03-27, 19:08
dataset
posted on 2020-04-01, 15:41authored byArun Kapoor, Ayan K. Ghosh, Michael Forman, Xin Hu, Wenjuan Ye, Noel Southall, Juan Marugan, Robert F. Keyes, Brian C. Smith, David J. Meyers, Marc Ferrer, Ravit Arav-Boger
The
critical consequences of human cytomegalovirus (HCMV) infection
in the transplant population and in congenitally infected infants,
the limited treatment options for HCMV, and the rise of resistant
mutants toward existing therapies has fueled the search for new anti-HCMV
agents. A pp28-luciferase recombinant HCMV was used as a reporter
system for high-throughput screening of HCMV inhibitors. Approximately
400 000 compounds from existing libraries were screened. Subsequent
validation assays using resynthesized compounds, several virus strains,
and detailed virology assays resulted in the identification of five
structurally unique and selective HCMV inhibitors, active at sub to
low micromolar concentrations. Further characterization revealed that
each compound inhibited a specific stage of HCMV replication. One
compound was also active against herpes simplex virus (HSV1 and HSV2),
and another compound was active against Epstein–Barr virus
(EBV). Drug combination studies revealed that all five compounds were
additive with ganciclovir or letermovir. Future studies will focus
on optimization of these new anti-HCMV compounds along with mechanistic
studies.