Staphylococcus aureus associated with surgical site infections in Western Kenya reveals genomic hotspots for pathogen evolution

Publication

Title: Staphylococcus aureus associated with surgical site infections in Western Kenya reveals genomic hotspots for pathogen evolution
Authors: Mogoi N, Sifuna A, Okoth P, Reva O, Malaba R, Negesa R, Nyongesa K, Osoro K, Welch M.
Journal: Access Microbiology,6:000734.v4 (2024)

Abstract

Objectives.
Staphylococcus aureus
is one of the most common pathogens attributed to hospital infections. Although
S. aureus
infections have been well studied in developed countries, far less is known about the biology of the pathogen in sub-Saharan Africa.

Methods.
Here, we report on the isolation, antibiotic resistance profiling, whole genome sequencing, and genome comparison of six multi-drug resistant isolates of
S. aureus
obtained from a referral hospital in Kakamega, Western Kenya.

Results.
Five of the six isolates contained a 20.7 kb circular plasmid carrying
blaZ
(associated with resistance to ?-lactam antibiotics). These five strains all belonged to the same sequence type, ST152. Despite the similarity of the plasmid in these isolates, whole genome sequencing revealed that the strains differed, depending on whether they were associated with hospital-acquired or community-acquired infections.

Conclusion.
The intriguing finding is that the hospital-acquired and the community-acquired isolates of
S. aureus
belonging to the same genotype, ST152, formed two separate sub-clusters in the phylogenetic tree and differed by the repertoire of accessory virulence genes. These data suggest ongoing adaptive evolution and significant genomic plasticity.