Presence of CTX gene cluster in environmental non-O1/O139 Vibrio cholerae and its potential clinical significance.

Purpose: The aim of this study was to understand the epidemiological linkage of clinical and environmental isolates of Vibrio cholerae and to determine their genotypes and virulence genes content. Materials and Methods: A total of 60 V. cholerae strains obtained from clinical specimens (n = 40) and surface waters (n = 20) were subjected to genotyping using PFGE and determination of their virulence-associated gene clusters. Result: PCR analysis showed the presence of chromosomally located hly and RTX genetic elements in 100% and 90% of the environmental isolates, respectively. The phage-mediated genetic elements such as CTX, TLC and VPI were detected in 5% of the environmental isolates suggesting that the environmental isolates cannot acquire certain mobile gene clusters. A total of 4 and 18 pulsotypes were obtained among the clinical and environmental V. cholerae isolates, respectively. Non-pathogenic environmentally isolated V. cholerae constituted a distinct cluster with one single non-O1, non-O139 strain (EP6) carrying the virulence genes similar to the epidemic strains. This may suggest the possible potential of conversion of non-pathogenic to a pathogenic environmental strain. Conclusions: The emergence of a single environmental isolate in our study containing the pathogenicity genes amongst the diverse non-pathogenic environmental isolates needs to be further studied in the context of V. cholerae pathogenicity sero-coversion.

A rapid and reliable species-specific identification of clinical and environmental isolates of Vibrio cholerae using a three-test procedure and recA polymerase chain reaction.

Purpose: Vibrio cholerae, the cause of cholera, is one of the leading causes of morbidity and mortality in many developing countries. Most laboratories initially rely on biochemical tests for a presumptive identification of these strains, followed by a polymerase chain reaction (PCR)-based method to confirm their identification. The aim of this study is to establish a rapid and reliable identification scheme for V. cholerae using a minimal, but highly specific number of biochemical tests and a PCR assay. Materials and Methods: We developed a species-specific PCR to identify V. cholerae, using a housekeeping gene recA, and used that to evaluate the sensitivity and specificity of 12 biochemical tests commonly used for screening and / or presumptive identification of V. cholerae in the clinical and environmental samples. Results: Here we introduced a combination of three biochemical tests, namely, sucrose fermentation, oxidase test, and growth in trypton broth containing 0% NaCl, as also the PCR of the recA gene, for rapid identification of V. cholerae isolates, with 100% sensitivity and specificity. The established method accurately identified a collection of 47 V. cholerae strains isolated from the clinical cases (n = 26) and surface waters (n = 21), while none of the 32 control strains belonging to different species were positive in this assay. Conclusion: The triple-test procedure introduced here is a simple and useful assay which can be adopted in cholera surveillance programs for efficient monitoring of V. cholerae in surface water and fecal samples.

Prevalence of virulence factors and antibiotic resistance in vancomycin-resistant Enterococcus faecium isolated from sewage and clinical samples in Iran.

Purpose: The purpose of the present study was to perform a molecular epidemiological survey by investigating the antibiotic resistance and the presence of known virulence factors in Enterococcus faecium isolates in Iran. The data collected from this study would allow us to control the spread and develop strategies for treatment of the enterococcal infections. Materials and Methods: In this study, 156 vancomycin-sensitive E. faecium (VSEF; 58) and vancomycin-resistant E. faecium (VREF; 98) samples were isolated from clinical specimen and sewage treatment plants (STPs). These isolates were screened for the presence of genes encoding for aggregation substance (asa1), cytolysin (cyl), enterococcal surface protein (esp), gelatinase (gelE) and hyaluronidase (hyl) by polymerase chain reaction (PCR). Results: Although significantly different, the results showed the presence of hyl and esp genes in both clinical (41 and 75%, respectively) and sewage (3.2 and 41%, respectively) isolates. Sensitivity of all isolates to seven antibiotics was examined. The results of the clinical isolates showed that the majority of esp positive isolates were also resistant to vancomycin, ciprofloxacin and erythromycin. Furthermore, cyl, gelE and asa1 were not found in either clinical or STP isolates. Finally, we determined the distinct types of isolates using Pulse Field Gel Electrophoresis (PFGE), which confirmed that most of the isolates were clonally unrelated. Conclusion: Our results demonstrated that higher number of the clinical E. faecium isolates carried virulence genes than the isolates from STP. Finally, the lack of the genes in clinical and STP isolates confirmed that these genes do not transfer horizontally.