Abstract
Cutibacterium acnes, formerly Propionibacterium acnes, is a Gram-positive bacterium commonly recognized as an important factor in acne vulgaris and infections associated with prosthetic medical devices. With the rise in antibiotic resistance, phage therapy has gained renewed attention as a promising alternative to antibiotics. In addition to a strict lytic cycle, some virulent phages may enter a pseudolysogenic state and exclude superinfections, thereby significantly limiting the applicability of these potential antimicrobial agents. However, the trade-off induced by phage infection of bacterial cells during this state and its molecular mechanism are yet to be confirmed, especially for C. acnes phages. In this study, a novel Cutibacterium acnes phage, KIT08, was isolated and characterized. It demonstrated rapid infectivity and moderately strong bacteriolysis. After infection of C. acnes NBRC 107,605, pseudolysogenic bacteria were collected and examined for physiological tradeoffs. The pseudolysogenic isolate exhibited slower growth and downregulation of the transcriptional levels of biofilm-producing genes, such as lipase 2 and hyaluronate lyase, leading to a decrease in biofilm formation. Additionally, a genomic study of phage KIT08 revealed that open reading frames 23 and 34 encode putative proteins homologous to repressor C and LTP proteins, which may play an important role in the induction of pseudolysogeny and superinfection exclusion in C. acnes.