First Record of the Isolation of blaNDM-1-Producing Enterotoxigenic Enterobacter cloacae ssp. cloacae in Baghdad/Iraq.

BACKGROUND: Antibiotic resistance is a major problem threatening human beings. The genetic determinants that carry resistance genes can be transmitted in several ways in clinical and food environments. Hence, this research study aimed to investigate the presence of New Delhi metallo-beta-lactamase-1 (blaNDM-1) produced by enterotoxigenic Enterobacter cloacae in both clinical and food samples. METHODS AND RESULTS: Twenty-four isolates of Enterobacter spp. were isolated, seven isolates from food samples and 17 isolates from blood taken from neonates and children (1 day - 10 years old) resident in a children's hospital. Antibiotic susceptibility test to 14 antibiotics was performed for all isolates. Enterotoxigenicity of the clinical and foodborne isolates was detected phenotypically using Suckling mouse bioassay. Genomic deoxyribonucleic acid (DNA) was extracted from the isolated Enterobacter spp. that were detected resistant to imipenem. Polymerase chain reaction (PCR) was used to amplify blaNDM-1 gene followed by sequencing. The results of the bioassay revealed that 64.28% of E. cloacae ssp. cloacae isolates were enterotoxigenic. Two E. cloacae ssp. cloacae were imipenem resistant. CONCLUSIONS: This study showed that one isolate from a male child 1 < year was bla NDM-1 positive that was con-firmed by sequencing. This is the first report that revealed blaNDM-1 producing Enterobacter cloacae in Iraq.

The Correlation between Adhesion Genes and Biofilm Formation among Escherichia coli Clinical Isolates.

BACKGROUND: The adhesion genes are responsible for biofilm production which leads to chronic diseases like urinary tract infections (UTIs). Uropathogenic Escherichia coli (UPEC) is the most predominant pathogen involved in UTIs. This study aims to evaluate the relationship between adhesion genes and bacterial biofilm that form by UPEC. METHODS: Fifty clinical isolates of E. coli from patients infected with UTIs were identified and antimicrobial resistance was tested by MIC assay. A polymerase chain reaction (PCR), a quick and sensitive assay to identify the adhesions operon (Afa, papG, flu, and fimH), was developed using eight primers and used for amplification. E. coli K-12 strain and E. coli J96 were used as a negative and a positive control for detection of adhesion genes. RESULTS: The study reported 70% of isolates produce strong biofilm. Adhesion genes showed as follow Afa (64% n = 33), papG (42% n = 23), flu (94% n = 52), fimH (86% n = 45). CONCLUSIONS: The resistance to non-Beta lactam antibiotic was significantly correlated with the availability of genes that encode for adhesion. These genes were highly correlated to biofilm formation in E. coli clinical isolates.