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Type I interferon shapes brain distribution and tropism of tick-borne flavivirus

Nunya Chotiwan, Ebba Rosendal, Stefanie M. A. Willekens, Erin Schexnaydre, Emma Nilsson, Richard Lindqvist, Max Hahn, Ionut Sebastian Mihai, Federico Morini, Jianguo Zhang, Gregory D. Ebel, Lars A. Carlson, Johan Henriksson, Ulf Ahlgren, Daniel Marcellino, Anna K. Överby

2023Nature Communications38 citationsDOIOpen Access PDF

Abstract

Abstract Viral tropism within the brain and the role(s) of vertebrate immune response to neurotropic flaviviruses infection is largely understudied. We combine multimodal imaging (cm-nm scale) with single nuclei RNA-sequencing to study Langat virus in wildtype and interferon alpha/beta receptor knockout ( Ifnar –/– ) mice to visualize viral pathogenesis and define molecular mechanisms. Whole brain viral infection is imaged by Optical Projection Tomography coregistered to ex vivo MRI. Infection is limited to grey matter of sensory systems in wildtype mice, but extends into white matter, meninges and choroid plexus in Ifnar –/– mice. Cells in wildtype display strong type I and II IFN responses, likely due to Ifnb expressing astrocytes, infiltration of macrophages and Ifng -expressing CD8+ NK cells, whereas in Ifnar –/– , the absence of this response contributes to a shift in cellular tropism towards non-activated resident microglia. Multimodal imaging-transcriptomics exemplifies a powerful way to characterize mechanisms of viral pathogenesis and tropism.

Topics & Concepts

FlavivirusVirologyTropismBiologyTissue tropismTickInterferonVirusMosquito-borne diseases and controlViral Infections and VectorsVector-borne infectious diseases
Type I interferon shapes brain distribution and tropism of tick-borne flavivirus | Litcius