Neuron-intrinsic NF-κB Signaling Mediates Reovirus Virulence

Published: Aug. 6, 2020, 2:03 a.m.

Link to bioRxiv paper: http://biorxiv.org/cgi/content/short/2020.08.05.238220v1?rss=1 Authors: Dermody, T., Pruijssers, A. J., Taylor, G. M., Brigleb, P., Shang, P., Urbanek, K., Brwon, J. Abstract: Pathological effects of apoptosis associated with viral infections of the central nervous system are an important cause of morbidity and mortality. Reovirus is a neurotropic virus that causes apoptosis in neurons, leading to lethal encephalitis in newborn mice. Reovirus-induced encephalitis is diminished in mice with germline ablation of NF-{kappa}B subunit p50. It is not known whether the pro-apoptotic function of NF-{kappa}B is mediated by neuron-intrinsic processes, NF-{kappa}B-regulated cytokine production by inflammatory cells, or a combination of both. To determine the contribution of cell type-specific NF-{kappa}B signaling in reovirus-induced neuronal injury, we established mice that lack NF-{kappa}B p65 expression in neurons using the Cre/loxP recombination system. Following intracranial inoculation of reovirus, 50% of wild-type (WT) mice succumbed to infection, whereas more than 90% of mice lacking neural NF-{kappa}B p65 (Nsp65-/-) mice survived. While viral loads in brains of WT and Nsp65-/- were comparable, histological analysis revealed that reovirus antigen-positive areas in the brain of WT mice displayed enhanced cleaved caspase-3 immunoreactivity, a marker of apoptosis, compared with Nsp65-/- mice. These data suggest that neuron-intrinsic NF-{kappa}B-dependent factors are essential mediators of reovirus neurovirulence. RNA sequencing analysis of reovirus-infected cortices of WT and Nsp65-/- mice suggests that NF-{kappa}B activation in neurons upregulates genes involved in innate immunity, inflammation, and cell death following reovirus infection. A better understanding of the contribution of cell type-specific NF-{kappa}B-dependent signaling to viral neuropathogenesis could inform development of new therapeutics that target and protect highly vulnerable cell populations Copy rights belong to original authors. Visit the link for more info