Biofilm formation by LEE-negative Shiga Toxin-Producing Escherichia coli strains.

Shiga toxin-producing Escherichia coli (STEC) include several serotypes isolated from cases of hemorrhagic colitis and, hemolytic uremic syndrome. Although O157:H7 is the most predominant STEC serotype, more than 100 non-O157 serogroups cause diseases in humans. Some STEC carry a Locus of Enterocyte Effacement (LEE-positive); however, STEC that do not carry LEE (LEE-negative) have also been associated with illness, mainly those harbouring the Locus of Adhesion and Autoaggregation (LAA). LAA carry some genes such as hes, iha, tpsA, and agn43, related with pathogenicity. One of them is the ability to form biofilms on different environments, which can contaminate food and generate infections while protecting themselves against adverse conditions. Considering that LAA could be responsible for some adherence mechanisms, the aims of this study were to compare different serogroup of LEE-negative STEC strains in their ability to form biofilms and to evaluate the participation of some genes encoding in LAA. A total of 348 LEE-negative STEC strains was analyzed. The presence of hes, iha, tpsA and agn43 were determined by monoplex PCR. From them, 48 STEC strains belonging to serogroups O113, O130, O171, O174 and, O178 were assayed for their ability to form biofilm. The most prevalent genes detected were agn43 (72.1%) and tpsA (69.5%). The iha and hes genes were present in 63.7% and 54% of the strains, respectively. Although all STEC strains were able to form biofilm, it was found a high variability between them. The relation between the biofilm formation and the presence of each gene was not statistically significant, suggesting that biofilm formation is independent of the presence of those genes. Highlighting that there is no treatment for HUS, it is once again notable that prevention measures and control strategies to prevent biofilm formation are important factors in reducing STEC transmission.

Diferentes métodos para aislamiento y detección de Salmonella spp. en canales porcinas / Different methods for isolation and detection of Salmonella spp. in pig carcasses

RESUMEN La Organización Mundial de la Salud (OMS) define salmonelosis como una de las enfermedades transmitida por alimentos (ETA) de mayor casuística, ampliamente extendida en todo el mundo. La enfermedad es producida por Salmonella spp. y causa una de las zoonosis más frecuentes y de mayor impacto económico. El hombre adquiere la infección después de la ingestión de alimentos contaminados, aunque también puede transmitirse de persona a persona o por vía fecal-oral. Actualmente, las técnicas micro-biológicas de aislamiento convencional para detección de Salmonella spp. son establecidas por el Código Alimentario Argentino para verificar la aptitud de un producto para consumo, pero éstas requieren de 4 a 5 días para la obtención de un resultado, tiempo que juega en contra para el productor y la conservación de dichos alimentos. Por este motivo en este trabajo se analizan los métodos de diagnóstico tradicional según Normas ISO 6579:2002 con algunas modificaciones, los métodos de inmunoensayo comerciales y la Reacción en Cadena de la Polimerasa técnica (PCR) de detección del gen invA implicado en el proceso de invasión de cepas patógenas. Se analizaron 60 muestras procedentes de canales porcinas destinadas a comercialización. Se detectó un 10% de Salmonella spp. Se pudo determinar que el diagnóstico molecular por PCR posee alta sensibilidad, pero no es alentador el resultado que reflejan los test comerciales inmunocromatográficos ya que queda en evidencia la necesidad de alta carga microbiana para un diagnóstico certero.

ABSTRACT The World Health Organization (WHO) defines salmonellosis as one of the most important foodborne diseases, widely spread worldwide. The disease is produced by Salmonella spp. and causes one of the most frequent zoonoses and of greater economic impact. The infection is acquired after ingestion of contaminated food, although it can also be transmitted from person to person or by fecal-oral route. Currently, conventional isolation microbiological techniques for detection of Salmonella spp. are established by the Argentine Food Code to verify the suitability of a product for consumption. But microbiological techniques require 4 to 5 days to obtain a result, time that plays against the producer and the conservation of such foods. For this reason in this work we analyze the traditional diagnostic methods according to ISO standards 6579: 2002 with some modifications, the commercial immunoassay methods and the Polymerase Chain Reaction technique (PCR) detection of the invA gene involved in the process of invasion of pathogenic strains. Sixty samples from pigs destined for commercialization were analyzed. 10% of Salmonella spp. was detected. It was possible to determine that the molecular diagnosis by PCR has high sensitivity, but it is not encouraging the result that reflect the commercial immunochromatographic tests since it is evident the need of high microbial load for a correct diagnosis.