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Systemic viral spreading and defective host responses are associated with fatal Lassa fever in macaques.

Nicolas BailletStéphanie ReynardEmeline PerthameJimmy HortionAlexandra JourneauxMathieu MateoXavier CarnecJustine SchaefferCaroline PicardLaura BarrotStéphane BarronAudrey VallveAurélie DutheyFrédéric JacquotCathy BoehringerGrégory JouvionNatalia PietrosemoliRachel LegendreMarie-Agnès DilliesRichard AllanCatherine Legras-LachuerCaroline CarbonnelleHervé RaoulSylvain Baize
Published in: Communications biology (2021)
Lassa virus (LASV) is endemic in West Africa and induces a viral hemorrhagic fever (VHF) with up to 30% lethality among clinical cases. The mechanisms involved in control of Lassa fever or, in contrast, the ensuing catastrophic illness and death are poorly understood. We used the cynomolgus monkey model to reproduce the human disease with asymptomatic to mild or fatal disease. After initial replication at the inoculation site, LASV reached the secondary lymphoid organs. LASV did not spread further in nonfatal disease and was rapidly controlled by balanced innate and T-cell responses. Systemic viral dissemination occurred during severe disease. Massive replication, a cytokine/chemokine storm, defective T-cell responses, and multiorgan failure were observed. Clinical, biological, immunological, and transcriptomic parameters resembled those observed during septic-shock syndrome, suggesting that similar pathogenesis is induced during Lassa fever. The outcome appears to be determined early, as differentially expressed genes in PBMCs were associated with fatal and non-fatal Lassa fever outcome very early after infection. These results provide a full characterization and important insights into Lassa fever pathogenesis and could help to develop early diagnostic tools.
Keyphrases
  • sars cov
  • septic shock
  • endothelial cells
  • immune response
  • genome wide
  • magnetic resonance
  • drug induced
  • gene expression
  • dna methylation
  • oxidative stress
  • single cell