Molecular Characterization of Staphylococcus aureus Isolates Associated with Nasal Colonization and Environmental Contamination in Academic Dental Clinics
Publication: Microbial Drug Resistance
Volume 26, Issue Number 6
Abstract
Aim: To determine the genetic makeup of methicillin-sensitive/methicillin-resistant Staphylococcus aureus (MSSA/MRSA) from nasal colonization and environmental contamination in dental clinics.
Materials and Methods: Nasal swabs from students and health care workers and environmental swabs were obtained at two academic dental clinics in the United Arab Emirates. The StaphyType DNA microarray-based assay was used for molecular characterization.
Results: Forty-eight S. aureus isolates were identified phenotypically (nasal: n = 43; environmental: n = 5), but 6 of these were assigned to S. argenteus by genotyping. These were CC(argenteus)2596, CC(arg)2250-MSSA, CC(arg)2250-MSSA-(Panton Valentine leukocidin [PVL]+) (n = 2), and CC(arg)2198-MSSA (n = 2). MRSA nasal colonization rate was 5.4% (n/N = 8/146) with the following strain affiliations: CC5-MRSA-[IV+fus+ccrAB], “Maltese Clone”; CC6-MRSA-IV, “WA MRSA-51”; CC22-MRSA-IV (PVL+/tst+); CC22-MRSA-[IV+fus+ccrAA/(C)]; and two each of CC5-MRSA-[VI+fus] and CC97-MRSA-[V/VT+fus]. The SCC-borne fusidic acid resistance (fusC) gene was detected in MRSA (n = 5) and MSSA (n = 1). Some MSSA strains, CC1-MSSA-[fus+ccrAB1] and ST1278-MSSA-[ccrA1], harbored recombinase genes. A CC30-MSSA harbored ACME locus/arc-genes, while ST1278-MSSA-[ccrA1] had an ACME-III element. Enterotoxin genes were commonly carried, but tst-1 gene was found in only CC22, CC30, and CC34 strains, while pvl genes were identified in CC(arg)2250 and CC22-MRSA-IV. Of the 51 noncoagulase staphylococci (CoNS) identified, 18 were mecA positive.
Conclusion: The findings demonstrate the first report of rare strains (ST1278 MSSA, CC(arg)2198, CC(arg)2596, and PVL+CC(arg)2250) in our region. Detection of MSSA with recombinase genes and ACME loci alongside mecA-positive CoNS is of clinical significance as this could provide a milieu for acquisition and transfer of SCC-elements, either with different ACME types, with fusC or the mecA gene resulting in conversion of MSSA into MRSA.
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Copyright 2020, Mary Ann Liebert, Inc., publishers.
History
Published online: 8 June 2020
Published in print: June 2020
Published ahead of print: 7 January 2020
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Disclosure Statement
E.M., A.R., D.G., R.E., and S.M. were employees of Alere Technologies GmbH/Abbott, Jena, Germany at the time the study was carried out. This did not influence the study design and they have no competing interests to declare. None of the other authors has any financial or other relationships that may constitute a conflict of interest.
Funding Information
This study was supported by Mohammed Bin Rashid University of Medicine and Health Sciences, Dubai, United Arab Emirates (College of Medicine, MBRU Internal Research Grant No. MBRU-CM-RG2017-03). The funding body did not influence or play any role in the study design, collection, analysis and interpretation of data, writing of the report, and decision to submit the article for publication.
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