Author:
Fujiki Jumpei,Nakamura Tomohiro,Nakamura Keisuke,Nishida Keita,Amano Yurika,Watanabe Yusaku,Gondaira Satoshi,Usui Masaru,Shimizu Masaru,Miyanaga Kazuhiko,Watanabe Shinya,Iwasaki Tomohito,Kiga Kotaro,Hanawa Tomoko,Higuchi Hidetoshi,Sawa Teiji,Tanji Yasunori,Tamura Yutaka,Cui Longzhu,Iwano Hidetomo
Abstract
AbstractStaphylococcus virus ΦSA012 has a wide host range and efficient lytic activity. Here, we assessed the biological stability of ΦSA012 against temperature, freeze-thawing, and pH to clinically apply the phage. In addition, inoculation of ΦSA012 through i.p. and i.v. injections into mice revealed that phages were reached the limit of detection in serum and accumulated notably spleens without inflammation at 48 h post-inoculation. Furthermore, inoculation of ΦSA012 through s.c. injections in mice significantly induced IgG, which possesses neutralizing activity against ΦSA012 and other Staphylococcus viruses, ΦSA039 and ΦMR003, but not Pseudomonas viruses ΦS12-3 and ΦR18 or Escherichia viruses T1, T4, and T7 in vitro. Immunoelectron microscopic analysis showed that purified anti-phage IgG recognizes the long-tail fiber of staphylococcus viruses. Although S. aureus inoculation resulted in a 25% survival rate in a mouse i.p. model, ΦSA012 inoculation (i.p.) improved the survival rate to 75%; however, the survival rate of ΦSA012-immunized mice decreased to less than non-immunized mice with phage i.v. injection at a MOI of 100. These results indicated that ΦSA012 possesses promise for use against staphylococcal infections but we should carefully address the appropriate dose and periods of phage administration. Our findings facilitate understandings of staphylococcus viruses for phage therapy.
Funder
MEXT/JSPS KAKENHI
Japan Agency for Medical Research and Development
Publisher
Springer Science and Business Media LLC
Cited by
5 articles.
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