Browsing by Author "Holappa, Katri"

Staphylococcus aureus is a commensal bacterium in humans and approximately 30% of healthy people carry it as part of their microbiome, in the nasal cavity and skin, without any harm. However, it is an opportunistic pathogen that causes severe infections in immunocompromised and hospitalized patients. Typical infections caused by S. aureus are wound and skin infections, pneumonia and urinary tract infections in people with a medical implanted device such as for example a catheter. S. aureus has gained resistance to virtually all antibiotics over the years of excessive antibiotic consumption, making treatment nearly impossible in some cases. MRSA, methicillin resistant S. aureus, is a worldwide problem in hospitals and the mortality rate is still rising. One of the most common MRSA lineages is USA300, a community-acquired MRSA, which is notorious not only for its antibiotic resistance but also for its ability to form prolific biofilms. Biofilm production combined with antibiotic resistance complicates treatment of S. aureus even further. A detailed understanding the molecular mechanisms of biofilm formation might bring us closer to a cure for infections caused by MRSA biofilms. The study comprised two parts. First, characterize the phenotype of the mutants under static and dynamic conditions, test the minimal inhibitory concentrations (MIC’s) for antibiotics and verify the gene knockout by real-time RT-PCR. Second, study gene function by transduction to the parental strain USA300-UAS391 EryS and a MRSA strain TCH1516 EryS to study the gene function in a different bacterial background. The methods used were cell culturing for static and dynamic biofilm as well as growth curve, fluorescence microscopy, antibiotic susceptibility testing and real-time RT-PCR. In total seven strains were selected for characterization. The chosen seven knockouts were ΔHAD (HAD-superfamily hydrolase, subfamily IA, variant 1), non-coding region, ΔausA (non-ribosomal peptide synthetase), ΔoppA (Oligopeptide ABC transporter substrate-binding protein), ΔclfB (clumping factor B), ΔampA (cytosol aminopeptidase), and ΔpgsA (CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase). General characterization showed a few changes in biofilm formation for the genes ΔoppA, ΔausA, ΔHAD and ΔpgsA. Especially ΔpgsA is interesting because of increased ciprofloxacin resistance. The real-time RT-PCR showed some altered gene expression patterns, but no connection to poor biofilm formation. With fluorescence microscopy the growth patterns of USA300 transposon mutant strain biofilms could be described. To verify the results of the characterization, further experimentation is needed, such as RNA sequencing and complementation. Also expanding the studies to other gene hits of the screening is recommended.