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Vaccine strains of Rift Valley fever virus exhibit attenuation at the maternal-fetal placental interface.

Cynthia M McMillenChristina MegliRebecca RadisicLauren B SkvarcaRyan M HoehlDevin A BoylesJackson J McGaugheyBrian H BirdAnita K McElroyAmy L Hartman
Published in: Journal of virology (2024)
Rift Valley fever virus (RVFV) infection causes abortions in ruminant livestock and is associated with an increased likelihood of miscarriages in women. Using sheep and human placenta explant cultures, we sought to identify tissues at the maternal-fetal interface targeted by RVFV. Sheep villi and fetal membranes were highly permissive to RVFV infection resulting in markedly higher virus titers than human cultures. Sheep cultures were most permissive to wild-type RVFV and ΔNSm infection, while live-attenuated RVFV vaccines (LAVs; MP-12, ΔNSs, and ΔNSs/ΔNSm) exhibited reduced replication. The human fetal membrane restricted wild-type and LAV replication, and when infection occurred, it was prominent on the maternal-facing side. Type I and type III interferons were induced in human villi exposed to LAVs lacking the NSs protein. This study supports the use of sheep and human placenta explants to understand vertical transmission of RVFV in mammals and whether LAVs are attenuated at the maternal-fetal interface.IMPORTANCEA direct comparison of replication of Rift Valley fever virus (RVFV) in sheep and human placental explants reveals comparative efficiencies and permissivity to infection and replication. Vaccine strains of RVFV demonstrated reduced infection and replication capacity in the mammalian placenta. This study represents the first direct cross-host comparison of the vertical transmission capacity of this high-priority emerging mosquito-transmitted virus.
Keyphrases
  • endothelial cells
  • induced pluripotent stem cells
  • escherichia coli
  • gene expression
  • pregnancy outcomes
  • high glucose
  • metabolic syndrome
  • oxidative stress
  • adipose tissue
  • amino acid
  • aedes aegypti