Department of Pathology

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Browsing Department of Pathology by Subject "Acinetobacter"

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    Characterisation of mcr-4.3 in a colistin-resistant Acinetobacter nosocomialis clinical isolate from Cape Town, South Africa
    (Elsevier, 2021) Snyman, Yolandi; Reuter, Sandra; Whitelaw, Andrew Christopher; Stein, Lisa; Maloba, Motlatji Reratilwe Bonnie; Newton-Foot, Mae
    Objectives: Colistin resistance in Acinetobacter spp. is increasing, resulting in potentially untreatable noso- comial infections. Plasmid-mediated colistin resistance is of particular concern due to its low fitness cost and potential transferability to other bacterial strains and species. This study investigated the colistin resistance mechanism in a clinical Acinetobacter nosocomialis isolate from Cape Town, South Africa. Methods: A colistin-resistant A. nosocomialis isolate was identified from a blood culture in 2017. PCR and Illumina whole-genome sequencing (WGS) were performed to identify genes and mutations conferring resistance to colistin. Plasmid sequencing was performed on an Oxford Nanopore platform. mcr function- ality was assessed by broth microdilution after cloning the mcr gene into pET-48b( + ) and expressing it in SHuffle®T7 Escherichia coli and after curing the plasmid using 62.5 mg/L acridine orange. Results: The colistin minimum inhibitory concentration (MIC) of the A. nosocomialis isolate was 16 mg/L. The mcr-4.3 gene was detected by PCR and WGS. No other previously described colistin resistance mech- anism was found by WGS. The mcr-4.3 gene was identified on a 24 024-bp RepB plasmid (pCAC13a). Functionality studies showed that recombinant mcr-4.3 did not confer colistin resistance in E. coli. How- ever, plasmid curing of pCAC13a restored colistin susceptibility in A. nosocomialis . Conclusion: We describe the first detection of a plasmid-mediated mcr-4.3 gene encoding colistin re- sistance in A. nosocomialis and the first detection of mcr-4.3 in a clinical isolate in Africa. Recombinant expression of mcr-4.3 did not confer colistin resistance in E. coli , suggesting that its functionality may be RepB plasmid-dependent or species-specific.
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    Clonal expansion of colistin-resistant Acinetobacter baumannii isolates in Cape Town, South Africa
    (Elsevier, 2020) Snyman, Yolandi; Whitelaw, Andrew Christopher; Reuter, Sandra; Dramowski, Angela; Maloba, Motlatji Reratilwe Bonnie; Newton-Foot, Mae
    Objectives: To describe colistin-resistant Acinetobacter baumannii isolates in Cape Town, South Africa. Methods: A. baumannii isolates identified on Vitek 2 Advanced Expert System were collected from Tygerberg Hospital referral laboratory between 2016 and 2017. Colistin resistance was confirmed using broth microdilution and SensiTest. mcr-1–5 were detected using PCR and strain typing was performed by rep-PCR. Whole genome sequencing (WGS) was performed on a subset of isolates to identify chromosomal colistin resistance mechanisms and strain diversity using multilocus sequence typing (MLST) and pairwise single nucleotide polymorphism analyses. Results: Twenty-six colistin-resistant and six colistin-susceptible A. baumannii were collected separately based on Vitek susceptibility; 20/26 (77%) were confirmed colistin-resistant by broth microdilution. Four colistin-resistant isolates were isolated in 2016 and 16 in 2017, from five healthcare facilities. Thirteen colistin-resistant isolates and eight colistin-susceptible isolates were identical by rep-PCR and MLST (ST1), all from patients admitted to a tertiary hospital during 2017. The remaining colistin-resistant isolates were unrelated. Conclusions: An increase in colistin-resistant A. baumannii isolates from a tertiary hospital in 2017 appears to be clonal expansion of an emerging colistin-resistant strain. This strain was not detected in 2016 or from other hospitals. Identical colistin-susceptible isolates were also isolated, suggesting relatively recent acquisition of colistin resistance.