Doctoral Degrees (Medical Virology)

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Browsing Doctoral Degrees (Medical Virology) by Author "Oosthuysen, Wilhelm Frederick"

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    Population structure, host cell interactions and pathogenesis of Staphylococcus aureus strains isolated at Tygerberg hospital, South Africa
    (Stellenbosch : Stellenbosch University, 2013-12) Oosthuysen, Wilhelm Frederick; Wasserman, Elizabeth; Orth, Heidi; Sinha, Bhanu; Stellenbosch University. Faculty of Medicine and Health Sciences. Dept. of Pathology.
    ENGLISH ABSTRACT: Numerous studies conducted internationally have identified and described several endemic methicillin-susceptible Staphylococcus aureus (MSSA) clones. However, only some of these clones are associated with methicillin resistance (CC5, CC8, CC22, CC30 and CC45). To date, studies reporting on the population structure of S. aureus isolated in South Africa represent limited demographic areas, focus on methicillin-resistant S. aureus (MRSA) only and have displayed little emphasis on virulence. This study was undertaken to elucidate the population structure of S. aureus isolated from specific clinical sources at Tygerberg hospital, and to investigate specific host-pathogen interactions of representative isolates. Consecutive non-repetitive clinical S. aureus isolates were collected over one year (September 2009/2010) with patient demographics and limited clinical information. Strains were typed by PFGE and molecular markers (spa, multi-locus sequence typing (MLST), agr, Staphylococcal Chromosome Cassette mec and Panton-Valentine leukocidin (PVL)). Representative isolates were selected and investigated for the presence of virulence genes, adherence (to immobilised fibronectin [Fn], fibrinogen [Fg], collagens IV [CnIV] and VI [CnVI]), cellular invasion and cell death induction. Statistical association were determined between all in vitro results and methicillin-resistance, clonality, patient HIV status and bacterial PVL status. Fifteen percent of the isolates (n = 367) were MRSA. Forty four present of isolates were PVL+. agr I-IV and SCCmec I-V were identified. The MSSA population was diverse: ST22 (dominant), ST1865 and ST121 were PVL+. ST45, ST1863 and ST15 were PVL-. PVL- MRSA were diverse: ST612-MRSA-IV (dominant), ST5-MRSA-I, ST239-MRSA-III, ST36-MRSA-II and ST22-MRSA-IV. The genes fnbA/B (fibronectin-binding protein A/B), clfA/B (clumping factor A/B), eap (extracellular adherence protein), nuc (nuclease), coa (coagulase) and hld (delta toxin) were detected in all representative isolates. The CC8 and CC6 isolates adhered strongly to all ligands (100-700% of control, ligand dependent), while isolates of CC45, CC22 and CC88 adhered strongly only to Fg and Fn. The CC30, CC15, and CC12 isolates adhered extremely strongly to CnIV (>300%) and CC8, CC15, and C6 to CnVI (>200%). Isolates from CC30, CC8, CC15, CC6, CC12, CC97, CC88 and CC45 were highly invasive (>100%). ST121 was non-invasive (>50%). Isolates of CC5, CC30 and CC121 were non-cytotoxic (<50%), while isolates of CC22, CC8, CC15, CC45 and CC88 were very cytotoxic (>70%). No significant difference was observed in adherence or cell death induction of MRSA vs. MSSA clones or between isolates from HIV+ vs. HIV- persons. PVL- isolates displayed higher cellular invasiveness than PVL+ isolates. The presence of ST612-MRSA-IV, ST22-MRSA-V and ST8-MRSA-V points to local SCCmec acquisition, as we found MSSA isolates with the same spa types. Numerous MSSA clones were prevalent, but do not appear to have a major common genetic background with MRSA. PVL was highly prevalent among MSSA, indicating acquisition of PVL genes independently of SCCmec. The abilities to adhere to specific immobilised ligands in vitro were diverse and grouped with the genetic background, while the vast majority of isolates were invasive and induced significant cell death. We can conclude that the population of S. aureus at Tygerberg hospital is composed of a vast number of MSSA and MRSA clones, which display varying patters of adherence to selected ligands and of which, the majority clones are invasive and cytotoxic.