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An Immunocompetent Mouse Model of Zika Virus Infection.
- Gorman, Matthew J;
- Caine, Elizabeth A;
- Zaitsev, Konstantin;
- Begley, Matthew C;
- Weger-Lucarelli, James;
- Uccellini, Melissa B;
- Tripathi, Shashank;
- Morrison, Juliet;
- Yount, Boyd L;
- Dinnon, Kenneth H;
- Rückert, Claudia;
- Young, Michael C;
- Zhu, Zhe;
- Robertson, Shelly J;
- McNally, Kristin L;
- Ye, Jing;
- Cao, Bin;
- Mysorekar, Indira U;
- Ebel, Gregory D;
- Baric, Ralph S;
- Best, Sonja M;
- Artyomov, Maxim N;
- Garcia-Sastre, Adolfo;
- Diamond, Michael S
- et al.
Published Web Location
https://doi.org/10.1016/j.chom.2018.04.003Abstract
Progress toward understanding Zika virus (ZIKV) pathogenesis is hindered by lack of immunocompetent small animal models, in part because ZIKV fails to effectively antagonize Stat2-dependent interferon (IFN) responses in mice. To address this limitation, we first passaged an African ZIKV strain (ZIKV-Dak-41525) through Rag1-/- mice to obtain a mouse-adapted virus (ZIKV-Dak-MA) that was more virulent than ZIKV-Dak-41525 in mice treated with an anti-Ifnar1 antibody. A G18R substitution in NS4B was the genetic basis for the increased replication, and resulted in decreased IFN-β production, diminished IFN-stimulated gene expression, and the greater brain infection observed with ZIKV-Dak-MA. To generate a fully immunocompetent mouse model of ZIKV infection, human STAT2 was introduced into the mouse Stat2 locus (hSTAT2 KI). Subcutaneous inoculation of pregnant hSTAT2 KI mice with ZIKV-Dak-MA resulted in spread to the placenta and fetal brain. An immunocompetent mouse model of ZIKV infection may prove valuable for evaluating countermeasures to limit disease.
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