Abstract
In light of the ever-increasing number of multidrug-resistant bacteria worldwide, bacteriophages are becoming a valid alternative to antibiotics; therefore, their interactions with host bacteria must be thoroughly investigated. Here, we report genome-wide transcriptional changes in a clinical Staphylococcus aureus SA515 strain for three time points after infection with the vB_SauM-515A1 kayvirus. Using an RNA sequencing approach, we identify 263 genes that were differentially expressed (DEGs) between phage-infected and uninfected host samples. Most of the DEGs were identified at an early stage of phage infection and were mainly involved in nucleotide and amino acid metabolism, as well as in cell death prevention. At the subsequent infection stages, the vast majority of DEGs were upregulated. Interestingly, 39 upregulated DEGs were common between the 15th and 30th minutes post-infection, and a substantial number of them belonged to the prophages. Furthermore, some virulence factors were overexpressed at the late infection stage, which necessitates more stringent host strain selection requirements for further use of bacteriophages for therapeutic purposes. Thus, this work allows us to better understand the influence of kayviruses on the metabolic systems of S. aureus and contributes to a better comprehension of phage therapy.
Highlights
IntroductionStaphylococcus aureus is an opportunistic bacterial pathogen that colonizes up to 30%
Staphylococcus aureus is an opportunistic bacterial pathogen that colonizes up to 30%of the human population [1]
Methicillin-susceptible S. aureus SA515 was a host for bacteriophage and belonged to ST8 and spa-type t008, according to genotyping schemes [12]
Summary
Staphylococcus aureus is an opportunistic bacterial pathogen that colonizes up to 30%. Due to variations in virulence factors, S. aureus isolates may cause a wide range of diseases, from skin and soft tissue infections to such dangerous diseases as pneumonia, meningitis, and osteomyelitis [2]. The spread of methicillin-resistant Staphylococcus aureus (MRSA) strains complicates disease prognosis by making β -lactam antibiotics ineffective [2]. According to the WHO, the prevalence of MRSA exceeds 20% in some countries [3], and the mortality rate of infections caused by MRSA strains is higher than those caused by methicillin-sensitive S. aureus [4]. Multidrug-resistant (MDR) S. aureus strains have been increasingly identified in recent years. In European countries, the proportion of S. aureus strains resistant to more than one antibiotic accounts for 10% [5]
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