Abstract
Several immunoglobulin-binding proteins of Escherichia coli (Eib) have been isolated from both non-pathogenic and pathogenic E. coli strains. Shiga toxin (Stx)-producing E. coli (STEC) contain eibG either as a single gene or in combination with eibC, while other E. coli strains harbour single or multiple eib genes. The Eib proteins bind human immunoglobulins in a non-immune manner and contribute to bacterial chain-like adherence to human epithelial cells. In this study, the EibG expression in several STEC strains was analysed under different environmental conditions. STEC produced high levels of EibG in complex media and lower levels in low-grade and minimal media under static growth conditions. This characteristic was independent on the Eib subtypes. Microscopically, EibG-expressing STEC exhibited chain formation and aggregation in all employed media, while aggregates were only visible after growth in complex medium. Once expressed, EibG proteins demonstrate high stability during prolonged incubation. Our findings indicate that the regulation of the expression of Eib proteins is highly complex, although the protein levels vary among STEC strains. However, positive upregulation conditions generally result in distinct phenotypes of the isolates.
Highlights
Immunoglobulins are involved in mammalian immune responses
This is in contrast to agitated cultivation, which resulted in very faint bands on immunoblots or protein levels below the detection limit (Figure 1)
Subsets of intimin-lacking STEC strains express immunoglobulin-binding proteins that interact with human immunoglobulins [7]
Summary
Several bacteria capable of causing severe infectious diseases have developed defence strategies allowing them to survive in the host by synthesizing surface proteins that interact with immunoglobulins in a non-immune manner [1] Such immunoglobulin-binding proteins were identified within different bacterial species and in commensal Escherichia coli (Eib) may play a role in virulence and are able to impart resistance to human serum complement [2,3]. In SDS-polyacrylamide gels, EibG formed heat-stable multimeric proteins with dominant signals of a molecular mass >250 kDa and a band at approximately 120 kDa with lower intensity [8], whereas the predicted mass of the largest Eib monomer is approximately 54 kDa [3] All these multimeric isoforms are able to interact non- with the immunoglobulins IgA and/or IgG and with the Fc fragment of human IgG [2]. ECOR2 harbouring eibF [5] and ECOR9 carrying four different eib genes (eibA, eibC, eibD and eibE) [3]
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