Atypical enteropathogenic E. coli (aEPEC) strains are emerging pathogens responsible for fatal diarrhoea in humans worldwide. The purpose of this study was to investigate genetic diversity, virulence and antimicrobial resistance profiles of aEPEC O177 strains isolated from faeces of cattle reared in intensive and extensive production systems in South Africa. A total of 96 multidrug resistant (MDR) aEPEC O177 isolates were typed using enterobacterial repetitive intergenic consensus (ERIC) and random amplified polymorphism DNA (RAPD) typing. The resistome, virulome and mobilome of two aEPEC O177 isolates were investigated using WGS analysis. The ERIC typing was efficient and reproducible with a discriminatory index of 0.95. RAPD typing had poor reproducibility with satisfactory discriminatory power of 0.859. The dendrograms constructed based on ERIC and RAPD banding patterns produced 9 and 8 clusters, respectively, which indicate genetic variation among E. coli O177 isolates. WGS analysis revealed that CF-154-A and CF-335-B) isolates belonged to the O177 serotype with H7 and H21, respectively. Both isolates harboured several virulome genes such as intimin (eaeA), haemolysin (hlyA and hlyE), translocated iron receptor (tir), Type III secretion system (eprH, gspL and prgH), bssR and bssS. However, genes encoding shiga toxins were not found in either isolate. Antibiotic resistance genes such as ampC, tet, ermB, sul2, strB AcrD, aph(6)-Ic, aph(6)-Ib, aph(3″)-I, ant (3″)-1a AcrA and acrE were found in the E. coli O177 strains. Furthermore, genome annotation results indicated that both isolates carried plasmids, insertion sequences, prophages and cluster of regularly interspaced short palindromic repeats (CRISPR) type I. Based on in silico multi locus typing (MLST) analysis, the two isolates were assigned to different sequence types (CF-154-A, ST-1308 and CF-335-B, ST-58). Whole genome multi locus typing tree showed that our isolates clustered with E. coli O177:H21 (reference), suggesting the close genomic relatedness among the strains. Overall, these findings showed that cattle carry genetically diverse E. coli O177 strains, which harbour a repertoire of virulome, resistome and mobilome genes. This highlights a need for multidrug resistant E. coli O177 strain surveillance in cattle.
Keywords: Antibiotic resistance genes; Escherichia coli O177; Food safety; Phylogenetic relationship; Virulence genes; Whole genome sequencing.
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