Detection of Antimicrobial Resistance Genes from Shiga Toxin Producing Escherichia coli by Multiplex PCR

Abstract

Background: Shiga toxin-producing Escherichia coli (STEC) strains are considered to be most common food-borne enteric zoonotic pathogen, causing various disease conditions in both animals and humans and are highly pathogenic to human in low infectious doses. Resistance against antibiotics by STEC is also a big concern now a days. Hence in view of the public health significance of STEC, present work was planned to know the combination of phenotypic and genotypic resistance patterns against certain most commonly used antibiotics by using disk diffusion method and multiplex PCR respectively. Methods: A total of 426 PCR confirmed STEC isolates isolated from pooled samples (animal faecal(179), farm water(122) and human faecal samples (125) of different livestock farms in and around Proddatur andhra Pradesh, were subjected to antibiotic sensitivity test by using disc diffusion method. The isolates that showed resistance for tetracycline, streptomycin, sulphonamides and ampicillin were selected and subjected to multiplex PCR for the detection of resistance genes. Result: Disk diffusion assay revealed highest phenotypic resistance for STEC isolates against Cepahlothin (100%), followed by Ampicillin (99.06%), Tetracycline (97.2%), Streptomycin (94.3%), Sulphonamides (90.8%) and Trimethoprim (84.5%). Pooled samples also revealed the presence of antimicrobial resistance genes like tetA(59.2%), tetB(43.5%), tetC (9.2%), strA (39.3%), strB(54.1%), sul1 (40.8%), sul2 (58.7%), sul3 (3.8%) and blaTEM(83.4%). These findings indicate the highest prevalence of antimicrobial resistance among the STEC isolates, which alarms indiscriminate use of antibiotics both for therapeutic purpose and as growth promoters. Strict hygienic, sanitation and HACCP programmes should be applied to counter STEC prevalence.