Distribution and characterization of Shiga toxin-producing E. coli in environmental samples from a dairy farm

POLIFRONI R; ETCHEVERRÍA AI; SANZ M; CEPEDA R; KRUGER A; LUCCHESI PMA; FERNANDEZ D; PARMA AE; PADOLA NL

CURRENT MICROBIOLOGY

SPRINGER

Lugar: Berlin; Año: 2012 vol. 65 p. 337 - 343

0343-8651

Environmental samples were taken from ground, cattle water troughs, and feeders from a dairy farm with different STEC prevalence between animal categories (weaning calves, rearing calves, and dairy cows). Overall, 23 % of samples were positive for stx genes, stx2 being the most prevalent type. Isolates were analyzed by PCR monoplex to confirm generic E. coli and by two multiplex PCR to investigate the presence of stx1, stx2, eae, saa, ehxA, and other putative virulence genes encoded in STEC plasmids: katP, espP, subA, and stcE. The toxin genes weresubtyped and the strains were serotyped. The ground and the environment of the rearing calves were the sites with the highest number of STEC-positive samples; however, cattle water troughs and the environment of cows were the places with the greater chance of finding stx2EDL933 which is a subtype associated with serious disease in humans. Several non-O157 STEC serotypes were detected. The serotypes O8:H19; O26:H11; O26:H-; O118:H2; O141:H-; and O145:H- have been asociated with human illness. Furthermore, the emergent pathogen STEC O157:H- (stx1? ehxA?eae) was detected in the environment of the weaning calves. These results emphasize the risk that represents the environment as source of STEC, a potential pathogen for human and suggest the importance of developing control methods designed to prevent contaminations of food products and transmission from animal to person.