Abstract
Filoviruses of the genus Ebolavirus include 6 species with marked differences in their ability to cause disease in humans. From the highly virulent Ebola virus to the seemingly nonpathogenic Reston virus, case fatality rates can range between 0% and 90%. In order to understand the molecular basis of these differences, it is imperative to establish disease models that recapitulate human disease as faithfully as possible. Nonhuman primates (NHPs) are the gold-standard models for filovirus pathogenesis, but comparative studies are skewed by the fact that Reston virus infection can be lethal for NHPs. Here we used HLA-A2–transgenic, NOD–scid–IL-2γ receptor–knockout (NSG-A2) mice reconstituted with human hematopoiesis to compare Ebola virus and Reston virus pathogenesis in a human-like environment. While markedly less pathogenic than Ebola virus, Reston virus killed 20% of infected mice, a finding that was linked to exacerbated inflammation and viral replication in the liver. In addition, the case fatality ratios of different Ebolavirus species in humans were recapitulated in the humanized mice. Our findings point to humanized mice as a putative model to test the pathogenicity of newly discovered filoviruses, and suggest that further investigations on Reston virus pathogenesis in humans are warranted.
Highlights
Filoviruses of the genus Ebolavirus comprise 6 known species
On day 5 after infection, we already observed staining of EBOV NP in macrophage-like cells within the lung parenchyma, which colocalized with human CD45 (hCD45) (Figure 1B)
We present a mouse model with mature human peripheral immune cells that is susceptible to infection with nonadapted ebolaviruses
Summary
Filoviruses of the genus Ebolavirus comprise 6 known species. The most virulent for humans is Ebola virus (species Zaire ebolavirus [EBOV]), which has caused most of the outbreaks to date, including the West African epidemic of 2013–2016 [1] and the ongoing epidemic in the Democratic Republic of the Congo (DRC) [2]. Two other members of the genus, Sudan virus (Sudan ebolavirus [SUDV]) and Bundibugyo virus (Bundibugyo ebolavirus [BDBV]), are pathogenic for humans, with reported case fatality rates (CFRs) of 50% and 25%, respectively [3, 4]. There is significantly less knowledge regarding the putative pathogenicity of Taï Forest virus (Taï Forest ebolavirus [TAFV]) and Reston virus (Reston ebolavirus [RESTV]) in humans. The recent discovery of additional filoviruses and filovirus sequences in bats and other species [9,10,11] has underscored the need for animal models to test the putative pathogenicity of emerging filoviruses
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