Human type A Enteroviruses (EV-As) cause diseases ranging from hand-foot-and-mouth disease to poliomyelitis-like disease. Although cellular receptors are identified for some EV-As, they remain elusive for the majority of EV-As. We identify the cell surface molecule KREMEN1 as an entry receptor for coxsackievirus A10 (CV-A10). Whereas loss of KREMEN1 renders cells resistant to CV-A10 infection, KREMEN1 overexpression enhances CV-A10 binding to the cell surface and increases susceptibility to infection, indicating that KREMEN1 is a rate-limiting factor for CV-A10 infection. Furthermore, the extracellular domain of KREMEN1 binds CV-A10 and functions as a neutralizing agent during infection. Kremen-deficient mice are resistant to CV-A10-induced lethal paralysis, emphasizing the relevance of Kremen for infection in vivo. KREMEN1 is also essential for infection by a phylogenetic and pathogenic related group of EV-As. Collectively these findings highlight the importance of KREMEN1 for these emerging pathogens and its potential as an antiviral therapeutic target.
Keywords: Enterovirus type A; KREMEN; WNT signaling; coxsackievirus; haploid genetic screen; host factor; receptor.
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