2021-06-15Zeitschriftenartikel
Comparative Pathogenesis, Genomics and Phylogeography of Mousepox
Mavian, Carla
López-Bueno, Alberto
Martín, Rocío
Nitsche, Andreas
Alcamí, Antonio
Ectromelia virus (ECTV), the causative agent of mousepox, has threatened laboratory
mouse colonies worldwide for almost a century. Mousepox has been valuable for the understanding
of poxvirus pathogenesis and immune evasion. Here, we have monitored in parallel the pathogenesis
of nine ECTVs in BALB/cJ mice and report the full-length genome sequence of eight novel ECTV
isolates or strains, including the first ECTV isolated from a field mouse, ECTV-MouKre. This approach
allowed us to identify several genes, absent in strains attenuated through serial passages in culture,
that may play a role in virulence and a set of putative genes that may be involved in enhancing
viral growth in vitro. We identified a putative strong inhibitor of the host inflammatory response in
ECTV-MouKre, an isolate that did not cause local foot swelling and developed a moderate virulence.
Most of the ECTVs, except ECTV-Hampstead, encode a truncated version of the P4c protein that
impairs the recruitment of virions into the A-type inclusion bodies, and our data suggest that P4c
may play a role in viral dissemination and transmission. This is the first comprehensive report that
sheds light into the phylogenetic and geographic relationship of the worldwide outbreak dynamics
for the ECTV species.
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