Virulence markers, adhesion and biofilm formation of Escherichia coli strains isolated from drinking water supplies of north Paraná State, Brazil.

Waterborne diseases are a major public health problem responsible for a high number of deaths worldwide, of which Escherichia coli is a major agent of contamination. This study investigates the occurrence of different diarrheagenic E. coli (DEC) pathotypes and its relationship with adherence patterns and biofilm formation. Between 2012 and 2014, a total of 1,780 drinking water samples were collected from different rural communities and urban water systems of north Paraná State. A total of 14% were positive for E. coli and 250 non-duplicate E. coli isolates were obtained. Between the E. coli isolates, 28 (11.2%) harbored DEC-associated genes, 10.7% being classified as Shiga toxin-producing E. coli (STEC), 64.3% enteroaggregative E. coli (EAEC) and 25% atypical enteropathogenic E. coli (aEPEC). The aggregative adherence (AA) was the predominant adherence pattern (84%), significantly associated with biofilm formation (p < 0.0001). On the other hand, the AA pattern and biofilm formation were not significantly associated to DEC pathotypes (p > 0.05). Therefore, we proposed that the AA pattern and biofilm formation in E. coli isolated from drinking water supplies could be associated with adherence and colonization of abiotic surfaces, such as pipes, leading to persistence and resistance to treatment or disinfection.

Role of aggregate-forming pilus (AFP) in adherence and colonization of both intestinal and urinary tracts

Hybrid-pathogenic Escherichia coli represent an important group of strains associated with intestinal and extraintestinal infections. Recently, we described strain UPEC-46, a uropathogenic/enteroaggregative E. coli (UPEC/EAEC) strain presenting the aggregative adherence (AA) pattern on bladder and colorectal epithelial cells mediated by aggregate-forming pili (AFP). However, the role of AFP and other uninvestigated putative fimbriae operons in UPEC-46 pathogenesis remains unclear. Thus, this study evaluated the involvement of AFP and other adhesins in uropathogenicity and intestinal colonization using different in vitro and in vivo models. The strain UPEC-46 was able to adhere and invade intestinal and urinary cell lines. A library of transposon mutants also identified the involvement of type I fimbriae (TIF) in the adherence to HeLa cells, in addition to colorectal and bladder cell lines. The streptomycin-treated mouse in vivo model also showed an increased number of bacterial counts in the colon in the presence of AFP and TIF. In the mouse model of ascending urinary tract infection (UTI), AFP was more associated with kidney colonization, while TIF appears to mediate bladder colonization. Results observed in in vivo experiments were also confirmed by electron microscopy (EM) analyses. In summary, the in vitro and in vivo analyses show a synergistic role of AFP and TIF in the adherence and colonization of intestinal and urinary epithelia. Therefore, we propose that hybrid E. coli strains carrying AFP and TIF could potentially cause intestinal and urinary tract infections in the same patient.

Structural changes in Stx1 engineering monoclonal antibody improves its functionality as diagnostic tool for a rapid latex agglutination test

Stx1 toxin is one of the AB(5) toxins of Shiga toxin-producing Escherichia coli (STEC) responsible for foodborne intoxication during outbreaks. The single-chain variable fragment (scFv) is the most common recombinant antibody format; it consists of both variable chains connected by a peptide linker with conserved specificity and affinity for antigen. The drawbacks of scFv production in bacteria are the heterologous expression, conformation and stability of the molecule, which could change the affinity for the antigen. In this work, we obtained a stable and functional scFv-Stx1 in bacteria, starting from IgG produced by hybridoma cells. After structural modifications, i.e., change in protein orientation, vector and linker, its solubility for expression in bacteria was increased as well as the affinity for its antigen, demonstrated by a scFv dissociation constant (K-D) of 2.26 x 10(-7) M. Also, it was able to recognize purified Stx1 and cross-reacted with Stx2 toxin by ELISA (Enzyme-Linked Immunosorbent Assay), and detected 88% of Stx1-producing strains using a rapid latex agglutination test. Thus, the scFv fragment obtained in the present work is a bacteria-produced tool for use in a rapid diagnosis test, providing an alternative for STEC diagnosis.

Structural changes in Stx1 engineering monoclonal antibody improves its functionality as diagnostic tool for a rapid latex agglutination test

Stx1 toxin is one of the AB(5) toxins of Shiga toxin-producing Escherichia coli (STEC) responsible for foodborne intoxication during outbreaks. The single-chain variable fragment (scFv) is the most common recombinant antibody format; it consists of both variable chains connected by a peptide linker with conserved specificity and affinity for antigen. The drawbacks of scFv production in bacteria are the heterologous expression, conformation and stability of the molecule, which could change the affinity for the antigen. In this work, we obtained a stable and functional scFv-Stx1 in bacteria, starting from IgG produced by hybridoma cells. After structural modifications, i.e., change in protein orientation, vector and linker, its solubility for expression in bacteria was increased as well as the affinity for its antigen, demonstrated by a scFv dissociation constant (K-D) of 2.26 x 10(-7) M. Also, it was able to recognize purified Stx1 and cross-reacted with Stx2 toxin by ELISA (Enzyme-Linked Immunosorbent Assay), and detected 88% of Stx1-producing strains using a rapid latex agglutination test. Thus, the scFv fragment obtained in the present work is a bacteria-produced tool for use in a rapid diagnosis test, providing an alternative for STEC diagnosis.

Distribution of serine protease autotransporters of enterobacteriaceae in typical and atypical enteroaggregative Escherichia coli

Enteroaggregative Escherichia coli (EAEC) is an agent of acute and persistent diarrhea worldwide, categorized in typical or atypical subgroups. Some EAEC virulence factors are members of the serine protease autotransporters of Enterobacteriaceae (SPATE). The presence of SPATE-encoding genes of different E. coli pathotypes was searched in a large collection of EAEC strains, and a possible association between SPATES and E. coil phylogroups was investigated. Among 108 typical and 85 atypical EAEC, pic was the most prevalent gene, detected in 47.1% of the strains, followed by sat (24.3%), espl (21.2%), pet (19.2%), sepA (13.5%), sigA (4.1%), eatA (4.1%), vat (1.0%), espP and tsh, detected in one strain (0.5%) each; while epeA and espC were not detected. Phylogenetic analysis demonstrated that 39.9% of the strains belonged to group A, 233% to B1, 10.9% to B2, 7.8% to D, 8.8% to E and 1.5% to F. The majority of the SPATE genes were distributed in typical and atypical strains without association with any phylogroup. In addition, pic and pet were strongly associated with typical EAEC and sepA was detected in close association with atypical EAEC. Our data indicate that SPATEs may represent important virulence traits in both subgroups of EAEC.

Alvos celulares das oncoproteínas virais E6 e E7 do papilomavírus humano

Os carcinomas cervicais expressam as oncoproteínas E6 e E7 de Papilomavírus Humano (HPV) de alto-risco, neutralizando a supressão tumoral. A oncoproteína E6 codificada pelo vírus é multifuncional, apresentando inúmeros alvos celulares; entretanto, ainda não está claro se todas essas atividades estão relacionadas à malignidade do tumor. Neste estudo avaliamos a distribuição de onconproteínas virais E6 e E7, mitocôndrias, receptor de transferrina (TfR), transferrina (Tf), ferritina (Fe) e citocromo c, em células humanas transformadas e não-transformadas por HPV, para um padrão de endocitose de ferro em células humanas e animais, como uma via alternativa de infecção por HPV. Linhagens celulares HPV-negativas foram transfectadas com vetores pLXSN, contendo as seqüências completas dos genes E6 e E7, sendo então usadas como controle positivo. As células foram plaqueadas e aderidas em lamínulas de vidro, para os ensaios de imunofluorescência; ensaios de fracionamento celular e isolamento da fração mitocondrial realizados em células HPV-positivas e HPV-negativas, para imunocitoquímica ultraestrutural. Foram utilizados os anticorpos primários anti-ferritina, anti-transferrina, anti-E6, anti-E7 e anti-citocromo c e os respectivos anticorpos secundários. Os anticorpos reconheceram as oncoproteínas E6 e E7 expressas em células HPV-positivas e HPV-negativas transfectadas pelo pLXSN. O TfR foi detectado em abundância na membrana plasmática das células, assim como a Fe no citoplasma, núcleo e mitocôndrias e a citocromo c preferencialmente localizada nas mitocôndrias. A grande quantidade de ferro sugere sua participação na transformação de células por HPV, mantendo os níveis de citocromo c mitocondrial. A co-localização de E6 e mitocôndrias nas células transformadas por HPV apontam um envolvimento na inibição do processo de apoptose. Nossos resultados estão em concordância com os achados de...