Abstract
Abstract
BACKGROUND USA300 methicillin-resistant Staphylococcus aureus (MRSA) is a community- and hospital- acquired pathogen that frequently causes infections but also can survive on the human body asymptomatically as a part of the normal flora. We devised a comparative genomic strategy to track colonizing USA300 at different body sites after S. aureus infection.
METHODS We sampled ST8 S. aureus from subjects at the site of a first known MRSA infection. Within 60 days of this infection and again 12 months later, each subject was tested for asymptomatic colonization in the nose, throat and perirectal region. 93 S. aureus strains underwent whole genome shotgun sequencing.
RESULTS Genome sequencing revealed that 23 patients carried USA300 intra-subject lineages (ISLs), defined as having an index infection isolate (III) and closely related strains. Pairwise distance between strains in different ISLs was 48 to 162 single nucleotide polymorphisms (SNPs), whereas within the same ISL it was 0 to 26 SNPs. At the initial sampling time among 23 subjects, we isolated S. aureus from the nose, throat and perirectal sites from 15, 11 and 15 of them, respectively. Twelve months later we isolated S. aureus within the same ISL from 9 subjects, with 6, 3 and 3 strains from the nose, throat and perirectal area, respectively. The median time from initial acquisition of the S. aureus USA300 strains to culture of the index infection was estimated at 18 weeks. Strains in ISLs from the same subject differed in plasmid and prophage content, and contained deletions that removed the mecA-containing SCCmec and ACME regions. Five strains contained frameshift mutations in agr toxin-regulating genes. Persistence of an ISL was not associated with clinical or demographic subject characteristics.
CONCLUSION Clonal lineages of USA300 may continue to colonize people at one or more anatomic sites up to a year after an initial infection and experience loss of the SCCmec, loss and gain of other mobile genetic elements, and mutations in the agr operon.