Abstract

Type I IFNs (IFN-Is) play pivotal roles in host defense against viral infections but remain enigmatic against bacterial pathogens. In this study, we recombinantly expressed and purified intact grass carp (<i>Ctenopharyngodon idella</i>) IFNφ1 (gcIFNφ1), a teleost IFN-I. gcIFNφ1 widely powerfully directly kills both Gram-negative and Gram-positive bacteria in a dose-dependent manner. gcIFNφ1 binds to LPS or peptidoglycan and provokes bacterial membrane depolarization and disruption, resulting in bacterial death. Furthermore, gcIFNφ1 can efficiently protect zebrafish against <i>Aeromonas hydrophila</i> infection and significantly reduce the bacterial loads in tissues by an infection model. In addition, we wonder whether antibacterial IFN-I members exist in other vertebrates. The amino acid compositions of representative IFN-Is with strong positive charges from Pisces, Amphibia, reptiles, Aves, and Mammalia demonstrate high similarities with those of 2237 reported cationic antimicrobial peptides in antimicrobial peptide database. Recombinant intact representative IFN-I members from the nonmammalian sect exhibit potent broad-spectrum robust bactericidal activity through bacterial membrane depolarization; in contrast, the bactericidal activity is very weak from mammalian IFN-Is. The findings display a broad-spectrum potent direct antimicrobial function for IFN-Is, to our knowledge previously unknown. The results highlight that IFN-Is are important and robust in host defense against bacterial pathogens, and unify direct antibacterial and indirect antiviral bifunction in nonmammalian jawed vertebrates.