Isolation from Sewage Influent and Characterization of Novel Staphylococcus aureus Bacteriophages with Wide Host Ranges and Potent Lytic Capabilities

Autor: Hidetomo Iwano, Ying Kuang, Aidan J. Synnott, Miki Kurimoto, Yasunori Tanji, Keiko Yamamichi
Rok vydání: 2009
Předmět:
Zdroj: Applied and Environmental Microbiology. 75:4483-4490
ISSN: 1098-5336
0099-2240
DOI: 10.1128/aem.02641-08
Popis: Staphylococcus aureus is a gram-positive pathogen that causes a variety of diseases, including bovine mastitis, which has severe economic consequences. Standard antibiotic treatment results in selection of resistant strains, leading to a need for alternative treatments, such as bacteriophage therapy. Forty-nine S. aureus isolates were obtained from the milk of mastitic cows for use in screening of staphylococcal phages. Fifteen isolates which were positive for both coagulase and hemolysin were assayed by PCR for variation in the X region and the immunoglobulin G-binding region of the protein A gene ( spa ) and in the carboxy terminus of the coagulase gene ( coa ) and for the presence of enterotoxin C, G, H, and I genes. The host ranges of 52 phages isolated from sewage influent were determined by performing spot tests with the 15 S. aureus isolates, and two phages were subsequently chosen for further analysis. ΦSA039 had the widest host range, producing clear plaques on 13 of the 15 isolates (87%), while ΦSA012 produced clear plaques on 8 isolates (53%) and was the only phage that produced a clear plaque on a nonmastitic S. aureus strain. Transmission electron microscopy revealed that the phages were similar sizes and belonged to the Myoviridae family. Measurement of optical densities during coculture with S. aureus isolates confirmed the breadth of the ΦSA039 host range and showed that ΦSA012 had potent lytic capability. ΦSA012-resistant bacteria did not appear for three of seven isolates tested (43%) after 65 h of incubation. These two phages are proposed as candidates for phage therapy of bovine mastitis.
Databáze: OpenAIRE