Cumulative effect of prophage burden on Shiga toxin production in Escherichia coli

Shigatoxigenic Escherichia coli (STEC) such as E. coli O157 are significant human pathogens, capable of producing severe, systemic disease outcomes. The more serious symptoms associated with STEC infection are primarily the result of Shiga toxin (Stx) production, directed by converting Stx bacteriop...

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Veröffentlicht in:	Microbiology (Society for General Microbiology) 2012-02, Vol.158 (Pt 2), p.488-497
Hauptverfasser:	FOGGT, Paul C. M, SAUNDERS, Jon R, MCCARTHY, Alan J, ALLISON, Heather E
Format:	Artikel
Sprache:	eng
Schlagworte:	Bacteriology Bacteriophages - genetics Bacteriophages - physiology Biological and medical sciences Escherichia coli Escherichia coli Infections - microbiology Escherichia coli O157 - genetics Escherichia coli O157 - metabolism Escherichia coli O157 - virology Fundamental and applied biological sciences. Psychology Humans Lysogeny Microbiology Miscellaneous Prophages - genetics Prophages - physiology Shiga Toxin - genetics Shiga Toxin - metabolism
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container_end_page	497
container_issue	Pt 2
container_start_page	488
container_title	Microbiology (Society for General Microbiology)
container_volume	158
creator	FOGGT, Paul C. M SAUNDERS, Jon R MCCARTHY, Alan J ALLISON, Heather E
description	Shigatoxigenic Escherichia coli (STEC) such as E. coli O157 are significant human pathogens, capable of producing severe, systemic disease outcomes. The more serious symptoms associated with STEC infection are primarily the result of Shiga toxin (Stx) production, directed by converting Stx bacteriophages. During phage-mediated replication and host cell lysis, the toxins are released en masse from the bacterial cells, and the severity of disease is linked inexorably to toxin load. It is common for a single bacterial host to harbour more than one heterogeneous Stx prophage, and it has also been recently proven that multiple isogenic prophage copies can exist in a single cell, contrary to the lambda immunity model. It is possible that in these multiple lysogens there is an increased potential for production of Stx. This study investigated the expression profiles of single and double isogenic lysogens of Stx phage 24(B) using quantitative PCR to examine transcription levels, and a reporter gene construct as a proxy for the translation levels of stx transcripts. Toxin gene expression in double lysogens was in excess of the single lysogen counterpart, both in the prophage state and after induction of the lytic life cycle. In addition, double lysogens were found to be more sensitive to an increased induction stimulus than single lysogens, suggesting that maintenance of a stable prophage is less likely when multiple phage genome copies are present. Overall, these data demonstrate that the phenomenon of multiple lysogeny in STEC has the potential to impact upon disease pathology through increased toxin load.
doi_str_mv	10.1099/mic.0.054981-0
format	Article
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It is possible that in these multiple lysogens there is an increased potential for production of Stx. This study investigated the expression profiles of single and double isogenic lysogens of Stx phage 24(B) using quantitative PCR to examine transcription levels, and a reporter gene construct as a proxy for the translation levels of stx transcripts. Toxin gene expression in double lysogens was in excess of the single lysogen counterpart, both in the prophage state and after induction of the lytic life cycle. In addition, double lysogens were found to be more sensitive to an increased induction stimulus than single lysogens, suggesting that maintenance of a stable prophage is less likely when multiple phage genome copies are present. 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subjects	Bacteriology Bacteriophages - genetics Bacteriophages - physiology Biological and medical sciences Escherichia coli Escherichia coli Infections - microbiology Escherichia coli O157 - genetics Escherichia coli O157 - metabolism Escherichia coli O157 - virology Fundamental and applied biological sciences. Psychology Humans Lysogeny Microbiology Miscellaneous Prophages - genetics Prophages - physiology Shiga Toxin - genetics Shiga Toxin - metabolism
title	Cumulative effect of prophage burden on Shiga toxin production in Escherichia coli
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