Abstract
Bacterial type III secretion systems (T3SS) play an important role in pathogenesis of Gram-negative infections. Enteropathogenic and enterohemorrhagic Escherichia coli contain a well-defined T3SS but in addition a second T3SS termed E. coli T3SS 2 (ETT2) has been described in a number of strains of E. coli. The majority of E. coli contain elements of a genetic locus encoding ETT2, but which has undergone significant mutational attrition rendering it without predicted function. Only a very few strains have been reported to contain an intact ETT2 locus. To investigate the occurrence of the ETT2 locus in strains of human pathogenic E. coli, we carried out genomic sequencing of 162 isolates obtained from patient blood cultures in Scotland. We found that all 26 ST69 isolates from this collection contained an intact ETT2 together with an associated eip locus which encodes putative secreted ETT2 effectors as well as eilA, a gene encoding a putative transcriptional regulator of ETT2 associated genes. Using a reporter gene for eilA activation, we defined conditions under which this gene was differentially activated. However, comparison of secreted proteins from ST69 strains under high and low eilA activation failed to identify any ETT2 secreted substrates. The conservation of the genes encoding ETT2 in human pathogenic ST69 strains strongly suggests it has functional importance in infection, although its exact functional role remains obscure.
Importance One of the commonest bacteria causing bloodstream infections in humans is Escherichia coli, which has a significant morbidity and mortality. Better understating of the mechanisms by which this microbe can invade blood could lead to more effective prevention and treatment. One mechanism by which some strains cause disease is by elaboration of a specialized secretion system, the type III secretion system (T3SS), encoded by the locus of enterocyte effacement (LEE). In addition to this well-defined T3SS, a second T3SS has been found in some E. coli strains termed E. coli type III secretion system 2 (ETT2). Most strains carry elements of the ETT2 locus, but with significant mutational attrition rendering it functionless. The significance of our work is that we have discovered that human bloodstream isolates of E. coli of sequence type 69 contain a fully intact ETT2 and associated genes, strongly suggesting its functional importance in human infection.