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IFN-λ derived from nonsusceptible enterocytes acts on tuft cells to limit persistent norovirus

Harshad Ingle, Heyde Makimaa, Somya Aggarwal, Hongju Deng, Lynne Foster, Yuhao Li, Elizabeth A. Kennedy, Stefan T. Peterson, Craig B. Wilen, Sanghyun Lee, Mehul S. Suthar, Megan T. Baldridge

2023Science Advances26 citationsDOIOpen Access PDF

Abstract

Norovirus is a leading cause of epidemic viral gastroenteritis, with no currently approved vaccines or antivirals. Murine norovirus (MNoV) is a well-characterized model of norovirus pathogenesis in vivo, and persistent strains exhibit lifelong intestinal infection. Interferon-λ (IFN-λ) is a potent antiviral that rapidly cures MNoV. We previously demonstrated that IFN-λ signaling in intestinal epithelial cells (IECs) controls persistent MNoV, and here demonstrate that IFN-λ acts on tuft cells, the exclusive site of MNoV persistence, to limit infection. While interrogating the source of IFN-λ to regulate MNoV, we confirmed that MDA5-MAVS signaling, required for IFN-λ induction to MNoV in vitro, controls persistent MNoV in vivo. We demonstrate that MAVS in IECs and not immune cells controls MNoV. MAVS in nonsusceptible enterocytes, but not in tuft cells, restricts MNoV, implicating noninfected cells as the IFN-λ source. Our findings indicate that host sensing of MNoV is distinct from cellular tropism, suggesting intercellular communication between IECs for antiviral signaling induction in uninfected bystander cells.

Topics & Concepts

Murine norovirusBiologyTropismBystander effectInterferonNorovirusVirologyImmune systemIn vivoTissue tropismIntestinal epitheliumMDA5PathogenesisIn vitroMicrobiologyImmunologyVirusEpitheliumRNARNA interferenceGeneGeneticsViral gastroenteritis research and epidemiologyViral Infections and Immunology ResearchAnimal Virus Infections Studies