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Differential pathogenesis of closely related 2018 Nigerian outbreak clade III Lassa virus isolates.

Derek R SteinBryce M WarnerJonathan AudetGeoff SouleVinayakumar SiragamPatrycja SrogaBryan D GriffinAnders LeungAllen GrollaKevin TierneyAlix AlbietzDarwyn KobasaAbdulmajid S MusaAdama AhmadAfolabi M AkinpeluNwando MbaRebecca RosenkeDana P ScottGreg SaturdayChikwe IhekweazuDavid Safronetz
Published in: PLoS pathogens (2021)
Nigeria continues to experience ever increasing annual outbreaks of Lassa fever (LF). The World Health Organization has recently declared Lassa virus (LASV) as a priority pathogen for accelerated research leading to a renewed international effort to develop relevant animal models of disease and effective countermeasures to reduce LF morbidity and mortality in endemic West African countries. A limiting factor in evaluating medical countermeasures against LF is a lack of well characterized animal models outside of those based on infection with LASV strain Josiah originating form Sierra Leone, circa 1976. Here we genetically characterize five recent LASV isolates collected from the 2018 outbreak in Nigeria. Three isolates were further evaluated in vivo and despite being closely related and from the same spatial / geographic region of Nigeria, only one of the three isolates proved lethal in strain 13 guinea pigs and non-human primates (NHP). Additionally, this isolate exhibited atypical pathogenesis characteristics in the NHP model, most notably respiratory failure, not commonly described in hemorrhagic cases of LF. These results suggest that there is considerable phenotypic heterogeneity in LASV infections in Nigeria, which leads to a multitude of pathogenesis characteristics that could account for differences between subclinical and lethal LF infections. Most importantly, the development of disease models using currently circulating LASV strains in West Africa are critical for the evaluation of potential vaccines and medical countermeasures.
Keyphrases
  • genetic diversity
  • respiratory failure
  • healthcare
  • escherichia coli
  • mechanical ventilation
  • extracorporeal membrane oxygenation
  • risk assessment
  • single cell
  • climate change
  • candida albicans
  • human health