Gastrointestinal infections, caused by Enterobacteriaceae, pose a major global health challenge, resulting in significant morbidity and mortality. Enhanced adherence and invasion properties are widespread among enteric pathogenic species, particularly those linked to invasive infections such as some pathovars of Escherichia coli or pathogens like Shigella and Salmonella. Pathogenic E. coli strains are categorized into various pathotypes, including diarrheagenic E. coli (DEC) and extraintestinal pathogenic E. coli (ExPEC). Notably, Enteroinvasive E. coli (EIEC) and Adherent-invasive E. coli (AIEC) demonstrate significant invasive properties. EIEC, similar to Shigella, invades intestinal epithelial cells causing dysentery-like illness, while AIEC persists in the gut epithelium, potentially contributing to chronic inflammatory bowel diseases (IBD). Techniques like cell culture assays are vital for assessing E. coli's adherence and invasion capabilities, with specific virulence factors such as fimbriae and type III secretion systems (T3SS) playing crucial roles. Comparatively, Shigella and Salmonella also utilize T3SS for epithelial cell invasion, but with distinct effector proteins and mechanisms. Understanding these differences is crucial for diagnosis and treatment, as advanced molecular diagnostics improve the identification of invasive E. coli strains. Potential therapeutic interventions targeting fimbrial adherence, T3SS and effector proteins offer promising avenues for developing antivirulence drugs. Here are provided protocols for studying the adherence and invasion properties of E. coli and other Enterobacteriaceae to enhance diagnostic methods, ultimately improving the management of enteric infections.
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