While it is hypothesized that Sever Acute Respiratory Syndrome (SARS) in
humans is caused by a disproportional immune response illustrated by
inappropriate induction of inflammatory cytokines, the exact nature of
the host response to SARS coronavirus (CoV) infection causing severe
pathology that includes diffuse alveolar damage (DAD) and acute
respiratory distress syndrome (ARDS) has not been fully revealed. In
order to further understand early events after SARS-CoV infection
contributing to SARS mediated pathology, we studied SARS pathogenesis in
different animal models. A range of techniques to establish parameters
such as viral loads, virus tropism and the severity of pathology were
employed to analyze SARS-CoV infection in macaques, mice and ferrets.
Additionally, functional genomics was used to explore the host response
at gene expression level in these animal models. Combining these
observations allowed us to further elucidate the pathogenesis of SARS.
In this thesis we show that, although SARS-CoV replicates efficiently to
high titers in the lungs of macaques, ferrets and mice, characteristics
of the host response to SARS-CoV infection are different in each animal
model. The differential activation of host responses in these different
animal models resulted in multiple SARS phenotypes, dependent on host
factors such as age, species and strain differences. In macaques and
mice strong host responses are driven by uninfected cells, while in
ferrets SARS-CoV infected cells may dominate the observed pathogenesis.
The fact that SARS-CoV leads to a range of host dependent phenotypes has
implications for development of SARS treatments and the use of SARS
animal models.
http://repub.eur.nl/res/pub/30799/120105_Lang%2C%20Anna%20de.pdf
http://repub.eur.nl/res/pub/30799/120105_Lang%2C%20Anna%20de.pdf
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