Silviavirus phage ɸMR003 displays a broad host range against methicillin-resistant Staphylococcus aureus of human origin.

Abstract

The emergence of life-threatening methicillin-resistant Staphylococcus aureus (MRSA) has led to increased interest in the use of bacteriophages as an alternative therapy to antibiotics. The success of phage therapy is greatly dependent on the selected phage possessing a wide host range. This study describes phage ɸMR003 isolated from sewage influent at a municipal wastewater treatment plant in Tokyo, Japan. ɸMR003 could infect 97% of 104 healthcare- and community-associated MRSA strains tested, compared with 73% for phage ɸSA012, which has a broad host range against bovine mastitis S. aureus. Genome analysis revealed that ɸMR003 belongs to the genus Silviavirus which has not been studied extensively. ɸMR003 recognizes and binds to wall teichoic acid (WTA) of S. aureus during infection. In silico comparisons of the genomes of ɸMR003 and ɸSA012 revealed that ORF117 and ORF119 of ɸMR003 are homologous to the putative receptor-binding proteins ORF103 and ORF105 of ɸSA012, with amino acid similarities of 75% and 72%, respectively. ORF104, which is an N-acetylglucosaminidase found in the ɸMR003 tail, may facilitatephage's infection onto the WTA-null S. aureus RN4220. The differences in tail and baseplate proteins may be key contributing factors to the different host specificities of ɸMR003 and ɸSA012. ɸMR003 showed strong adsorptivity, but not infectivity, against S. aureus SA003, which may be influenced by the bacterium's restriction modification system. This study expands our knowledge of the genomic diversity and host specificity of Silviavirus, which is a potential phage therapy candidate for MRSA infections.