[Distribution of phylogenetic groups and virulence factors in CTX-M-15 ß-lactamase-producing uropathogenic Escherichia coli strains isolated from patients in the community of Mérida, Venezuela]. / Distribución de grupos filogenéticos y factores de virulencia en cepas de Escherichia coli uropatógena productora de ß-lactamasa CTX-M-15 aisladas de pacientes de la comunidad en Mérida, Venezuela.

In this study, the distribution of phylogenetic groups and the genetic detection of virulence factors in CTX-M-15 ß-lactamase-producing uropathogenic Escherichia coli (UPEC) strains were analyzed. Twenty eight strains were isolated between January 2009 and July 2011 from patients with urinary tract infection (UTI) who attended the Public Health Laboratory at Mérida, Venezuela. Determination of phylogenetic groups and detection of six virulence genes, fimH, fyuA, kpsMTII, usp, PAI and papAH, were performed by PCR amplification. Fifteen of the 28 isolates were mainly located in the phylogenetic group A, followed by B2 (12/28) and D (1/28). No direct relationship between the severity or recurrence of UTI and the distribution of phylogroups was observed. All studied virulence factors were found in group B2 strains with the highest frequency. The prevalent virulence profile included the combination of three main genes: fimH, kpsMTII and fyuA and, to a lesser extent, the presence of other determinants such as usp, PAI and/or papAH. These results indicate that virulent UPEC incorporated three important properties: adhesion, iron uptake and evasion of phagocytosis, which favored the production of recurrent UTI. This is the first report describing the association of phylogenetic groups with the potential virulence of CTX-M-15 ß-lactamase producing UPEC strains in Venezuela.

Local and Global Protein Interactions Contribute to Residue Entrenchment in Beta-Lactamase TEM-1.

Due to their rapid evolution and their impact on healthcare, beta-lactamases, protein degrading beta-lactam antibiotics, are used as generic models of protein evolution. Therefore, we investigated the mutation effects in two distant beta-lactamases, TEM-1 and CTX-M-15. Interestingly, we found a site with a complex pattern of genetic interactions. Mutation G251W in TEM-1 inactivates the protein's function, just as the reciprocal mutation, W251G, does in CTX-M-15. The phylogenetic analysis revealed that mutation G has been entrenched in TEM-1's background: while rarely observed throughout the phylogeny, it is essential in TEM-1. Using a rescue experiment, in the TEM-1 G251W mutant, we identified sites that alleviate the deviation from G to W. While few of these mutations could potentially involve local interactions, most of them were found on distant residues in the 3D structure. Many well-known mutations that have an impact on protein stability, such as M182T, were recovered. Our results therefore suggest that entrenchment of an amino acid may rely on diffuse interactions among multiple sites, with a major impact on protein stability.

Distribución de grupos filogenéticos y factores de virulencia en cepas de Escherichia coli uropatógena productora de ß-lactamasa CTX-M-15 aisladas de pacientes de la comunidad en Mérida, Venezuela / Distribution of phylogenetic groups and virulence factors in CTX-M-15 ß -lactamase-producing uropathogenic Escherichia coli strains isolated from patients in the community of Mérida, Venezuela

En este estudio se determinó el perfil de distribución de grupos filogéneticos y la detección genética de factores de virulencia en cepas de Escherichia coli uropatógena (ECUP) productoras de ß-lactamasa CTX-M-15. Veintiocho cepas fueron aisladas de pacientes con infección del tracto urinario (ITU) que asistieron al Laboratorio de Salud Pública del estado Mérida, Venezuela, durante el lapso comprendido entre enero 2009 y julio 2011. La determinación de los grupos filogenéticos y la detección de seis genes de virulencia, fimH, fyuA, kpsMTII, usp, PAI y papAH, se realizó mediante amplificación por PCR. Quince cepas de 28 se ubicaron principalmente en el filogrupo A, seguidos por el B2 (12/28) y D (1/28). No se observó una relación directa entre la recurrencia o gravedad de la ITU y la distribución de los filogrupos. Todos los factores de virulencia estudiados se encontraron con la frecuencia más alta en el grupo B2. El perfil de virulencia prevalente estuvo conformado por la asociación de tres genes principales: fimH, fyuA y kpsMTII y en menor frecuencia, por la presencia de otros determinantes como usp, PAI y/o papAH. Estos resultados indican que la mayoría de ECUP estuvieron dotadas de tres propiedades virulentas importantes: adhesión, captación de hierro y evasión de la fagocitosis, las cuales favorecieron la producción de ITU recurrentes. Este es el primer trabajo que describe la asociación de grupos filogenéticos con el potencial de virulencia de cepas de ECUP productoras de ß-lactamasa CTX-M-15 en Venezuela.

In this study, the distribution of phylogenetic groups and the genetic detection of virulence factors in CTX-M-15 ß-lactamase-producing uropathogenic Escherichia coli (UPEC) strains were analyzed. Twenty eight strains were isolated between January 2009 and July 2011 from patients with urinary tract infection (UTI) who attended the Public Health Laboratory at Mérida, Venezuela. Determination of phylogenetic groups and detection of six virulence genes, fimH, fyuA, kpsMTII, usp, PAI and papAH, were performed by PCR amplification. Fifteen of the 28 isolates were mainly located in the phylogenetic group A, followed by B2 (12/28) and D (1/28). No direct relationship between the severity or recurrence of UTI and the distribution of phylogroups was observed. All studied virulence factors were found in group B2 strains with the highest frequency. The prevalent virulence profile included the combination of three main genes: fimH, kpsMTII and fyuA and, to a lesser extent, the presence of other determinants such as usp, PAI and/or papAH. These results indicate that virulent UPEC incorporated three important properties: adhesion, iron uptake and evasion of phagocytosis, which favored the production of recurrent UTI. This is the first report describing the association of phylogenetic groups with the potential virulence of CTX-M-15 ß-lactamase producing UPEC strains in Venezuela.