Browsing by Subject "Locus of enterocyte effacement"
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Publication Molekulargenetische Untersuchungen zur Expression des Typ III Effektors NleA 4795 von Shiga Toxin-produzierenden Escherichia coli(2010) Schwidder, Maike; Schmidt, HerbertShiga toxin-producing E. coli (STEC) are the causative agents of foodborne infections in many countries and can lead to severe diseases like hemorrhagic colitis or the life-threatening hemolytic uremic syndrome. The bacteria colonize the human intestine where they normally cause the formation of characteristic ?attaching and effacing?-lesions. Essential for this effect is a pathogenicity island, termed as ?locus of enterocyte effacement? (LEE), that encodes the components of a type III secretion system and several effector proteins, which are translocated directly into the host cells by the TTSS machinery. In addition to the LEE-encoded effectors a large number of effector proteins have been identified which are encoded outside of the pathogenicity island. Among these is the ?non-LEE encoded effector A? (NleA), which is encoded on cryptic or inducible prophages and is widely distributed among pathogenic E. coli strains. In the present study, the expression and regulation of the nleA-variant nleA4795 of E. coli O84:H4 strain 4795/97 was investigated, which is located on the Shiga toxin-converting bacteriophage BP-4795. Therefore, different environmental conditions as well as certain regulatorproteins were tested on their influence on nleA4795-expression using a luciferase-reportersystem and the quantitative real-time PCR. Among the analyzed environmental factors, certain concentrations of NaCl and KCl were identified to activate nleA4795-expression, indicating an osmotic-based influence. The suggested induction of nleA4795 in preconditioned medium due to quorum sensing could not be confirmed, since none of the so far known autoinducers showed a positive influence on the expression. The increased expression of nleA4795 could be associated with a reduced amount of nutrients in subsequent investigations and therefore demonstrated a relation between nleA4795-expression and bacterial stress-response-systems. Furthermore, a possible correlation of nleA4795-expression with the induction of phage BP 4795 and Shiga toxin-expression was analyzed. Different from the expression of Shiga toxin, induction-experiments with norfloxacin showed no activation, but a strong repression of nleA4795-expression. Analysis of the regulatory level demonstrated that the expression of nleA4795 depends on the three LEE-encoded regulators Ler, GrlA und GrlR as well as on the Pch-regulators, which are encoded outside of the LEE. The non-LEE encoded regulator EtrA showed no influence on the expression of nleA4795. In addition, the regulator proteins Ler, GrlA and PchA were tested for direct binding to the nleA4795-promoterregion. Regulators GrlA and PchA showed no specific binding and were therefore classified as indirect regulators of nleA4795-expression. In contrast, regulator Ler showed a specific binding to different areas of the nleA4795-promoter region and thereby confirmed the integration of nleA4795 in the Ler-mediated circuit of LEE-regulation.