Opposing roles of endosomal innate immunity proteins IFITM3 and TLR7 in human metapneumovirus infection

Abstract

ABSTRACTHuman metapneumovirus (hMPV) utilizes a bifurcated cellular entry strategy, fusing either with the plasma membrane or, after endocytosis, with the endosome membrane. Whether cellular factors restrict or enhance either entry pathway is largely unknown. We found that the interferon-induced transmembrane protein 3 (IFITM3) inhibits hMPV infection to an extent similar to endocytosis-inhibiting drugs, and an IFITM3 variant that accumulates at the plasma membrane in addition to its endosome localization provided increased virus restriction. Mechanistically, IFITM3 blocks hMPV F protein-mediated membrane fusion, and inhibition of infection was reversed by the membrane destabilizing drug amphotericin B. Conversely, we unexpectedly found that infection by some hMPV strains is enhanced by Toll-like receptor 7 (TLR7), an endosomal protein, suggesting that cellular entry via endocytosis may be particularly advantageous for hMPV despite eventual restriction of this pathway upon induction of IFITM3. Overall, our results identify IFITM3 and TLR7 as endosomal factors differentially regulating hMPV infection.