Dan Xu scite author profile

The link between Zika virus (ZIKV) infection and microcephaly has raised urgent global alarm. The historical African ZIKV MR766 was recently shown to infect cultured human neural precursor cells (NPCs), but unlike the contemporary ZIKV strains, it is not believed to cause microcephaly. Here we investigated whether the Asian ZIKV strain SZ01 could infect NPCs in vivo and affect brain development. We found that SZ01 replicates efficiently in embryonic mouse brain by directly targeting different neuronal linages. ZIKV infection leads to cell-cycle arrest, apoptosis, and inhibition of NPC differentiation, resulting in cortical thinning and microcephaly. Global gene expression analysis of infected brains reveals upregulation of candidate flavirus entry receptors and dysregulation of genes associated with immune response, apoptosis, and microcephaly. Our model provides evidence for a direct link between Zika virus infection and microcephaly, with potential for further exploration of the underlying mechanisms and management of ZIKV-related pathological effects during brain development.

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Zika Virus Disrupts Neural Progenitor Development and Leads to Microcephaly in Mice

Li¹,

Xu²,

Ye³

et al. 2016

Cell Stem Cell

278

341

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When this paper was originally published, the accession number for the RNA-seq dataset included in the study was unfortunately omitted. The dataset has now been submitted to the Genome Sequence Archive of the Beijing Institute of Genomics Data Center under the accession number PRJCA000267. The online version of the paper has also been modified to include an Accession Numbers section with this information.

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Human hepatic organoids for the analysis of human genetic diseases

Guan¹,

Xu²,

Garfin³

et al. 2017

183

196

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Zika-Virus-Encoded NS2A Disrupts Mammalian Cortical Neurogenesis by Degrading Adherens Junction Proteins

et al. 2017

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SUMMARY Zika virus (ZIKV) directly infects neural progenitors and impairs their proliferation. How ZIKV interacts with the host molecular machinery to impact neurogenesis in vivo is not well understood. Here, by systematically introducing individual proteins encoded by ZIKV into the embryonic mouse cortex, we show that expression of ZIKV-NS2A, but not Dengue virus (DENV)-NS2A, leads to reduced proliferation and premature differentiation of radial glial cells, and aberrant positioning of newborn neurons. Mechanistically, in vitro mapping of protein-interactomes and biochemical analysis suggest interactions between ZIKA-NS2A and multiple adherens junction complex (AJ) components. Functionally, ZIKV-NS2A, but not DENV-NS2A, destabilizes the AJ complex, resulting in impaired AJ formation and aberrant radial glial fiber scaffolding in the embryonic mouse cortex. Similarly, ZIKA-NS2A, but not DENV-NS2A, reduces radial glial cell proliferation and causes AJ deficits in human forebrain organoids. Together, our results reveal pathogenic mechanisms underlying ZIKV infection in the developing mammalian brain.

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Dan Xu

Zika Virus Disrupts Neural Progenitor Development and Leads to Microcephaly in Mice

Zika Virus Disrupts Neural Progenitor Development and Leads to Microcephaly in Mice

Human hepatic organoids for the analysis of human genetic diseases

Zika-Virus-Encoded NS2A Disrupts Mammalian Cortical Neurogenesis by Degrading Adherens Junction Proteins

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