Bad Phages in Good Bacteria: Role of the Mysterious orf63 of λ and Shiga Toxin-Converting Φ24B Bacteriophages

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Abstract

Lambdoid bacteriophages form a group of viruses that shares a common schema of genome organization and lifecycle. Some of them can play crucial roles in creating the pathogenic profiles of Escherichia coli strains. For example, Shiga toxin-producing E. coli (STEC) acquired stx genes, encoding Shiga toxins, via lambdoid prophages (Stx phages). The results obtained so far present the evidence for the relation between the exo-xis region of the phage genome and lambdoid phage development, however molecular mechanisms of activities of the exo-xis genes' products are still unknown. In view of this, we decided to determine the influence of the uncharacterized open reading frame orf63 of the exo-xis region on lambdoid phages development using recombinant prophages, λ and Stx phage Φ24 _B. We have demonstrated that orf63 codes for a folded protein, thus, it is a functional gene. NMR spectroscopy and analytical gel filtration were used to extend this observation further. From backbone chemical shifts, Orf63 is oligomeric in solution, likely a trimer and consistent with its small size (63 aa.), is comprised of two helices, likely intertwined to form the oligomer. We observed that the deletion of phage orf63 does not impair the intracellular lambdoid phage lytic development, however delays the time and decreases the efficiency of prophage induction and in consequence results in increased survival of E. coli during phage lytic development. Additionally, the deletion of phage orf63 negatively influences expression of the major phage genes and open reading frames from the exo-xis region during prophage induction with hydrogen peroxide. We conclude, that lambdoid phage orf63 may have specific functions in the regulation of lambdoid phages development, especially at the stage of the lysis vs. lysogenization decision. Besides, orf63 probably participates in the regulation of the level of expression of essential phage genes and open reading frames from the exo-xis region during prophage induction.

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Most cited references 27

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Escherichia coli is the predominant nonpathogenic facultative flora of the human intestine. Some E. coli strains, however, have developed the ability to cause disease of the gastrointestinal, urinary, or central nervous system in even the most robust human hosts. Diarrheagenic strains of E. coli can be divided into at least six different categories with corresponding distinct pathogenic schemes. Taken together, these organisms probably represent the most common cause of pediatric diarrhea worldwide. Several distinct clinical syndromes accompany infection with diarrheagenic E. coli categories, including traveler's diarrhea (enterotoxigenic E. coli), hemorrhagic colitis and hemolytic-uremic syndrome (enterohemorrhagic E. coli), persistent diarrhea (enteroaggregative E. coli), and watery diarrhea of infants (entero-pathogenic E. coli). This review discusses the current level of understanding of the pathogenesis of the diarrheagenic E. coli strains and describes how their pathogenic schemes underlie the clinical manifestations, diagnostic approach, and epidemiologic investigation of these important pathogens.

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The Escherichia coli K-12 "wild types" W3110 and MG1655 have an rph frameshift mutation that leads to pyrimidine starvation due to low pyrE expression levels.

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The widely used and closely related Escherichia coli "wild types" W3110 and MG1655, as well as their common ancestor W1485, starve for pyrimidine in minimal medium because of a suboptimal content of orotate phosphoribosyltransferase, which is encoded by the pyrE gene. This conclusion was based on the findings that (i) the strains grew 10 to 15% more slowly in pyrimidine-free medium than in medium containing uracil; (ii) their levels of aspartate transcarbamylase were highly derepressed, as is characteristic for pyrimidine starvation conditions; and (iii) their levels of orotate phosphoribosyltransferase were low. After introduction of a plasmid carrying the rph-pyrE operon from strain HfrH, the growth rates were no longer stimulated by uracil and the levels of aspartate transcarbamylase were low and similar to the levels observed for other strains of E. coli K-12, E. coli B, and Salmonella typhimurium. To identify the mutation responsible for these phenotypes, the rph-pyrE operon of W3110 was cloned in pBR322 from Kohara bacteriophage lambda 2A6. DNA sequencing revealed that a GC base pair was missing near the end of the rph gene of W3110. This one-base-pair deletion results in a frame shift of translation over the last 15 codons and reduces the size of the rph gene product by 10 amino acid residues relative to the size of RNase PH of other E. coli strains, as confirmed by analysis of protein synthesis in minicells. The truncated protein lacks RNase PH activity, and the premature translation stop in the rph cistron explains the low levels of orotate phosphoribosyltransferase in W3110, since close coupling between transcription and translation is needed to support optimal levels of transcription past the intercistronic pyrE attenuator.

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In 2011, Germany experienced the largest outbreak with a Shiga toxin-producing Escherichia coli (STEC) strain ever recorded. A series of environmental and trace-back and trace-forward investigations linked sprout consumption with the disease, but fecal-oral transmission was also documented. The genome sequences of the pathogen revealed a clonal outbreak with enteroaggregative E. coli (EAEC). Some EAEC virulence factors are carried on the virulence plasmid pAA. From an unknown source, the epidemic strains acquired a lambdoid prophage carrying the gene for the Shiga toxin. The resulting strains therefore possess two different mobile elements, a phage and a plasmid, contributing essential virulence genes. Shiga toxin is released by decaying bacteria in the gut, migrates through the intestinal barrier, and is transported via the blood to target organs, like the kidney. In a mouse model, probiotic bifidobacteria interfered with transport of the toxin through the gut mucosa. Researchers explored bacteriophages, bacteriocins, and low-molecular-weight inhibitors against STEC. Randomized controlled clinical trials of enterohemorrhagic E. coli (EHEC)-associated hemolytic uremic syndrome (HUS) patients found none of the interventions superior to supportive therapy alone. Antibodies against one subtype of Shiga toxin protected pigs against fatal neurological infection, while treatment with a toxin receptor decoy showed no effect in a clinical trial. Likewise, a monoclonal antibody directed against a complement protein led to mixed results. Plasma exchange and IgG immunoadsoprtion ameliorated the condition in small uncontrolled trials. The epidemic O104:H4 strains were resistant to all penicillins and cephalosporins but susceptible to carbapenems, which were recommended for treatment.

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Author and article information

Contributors

Sylwia Bloch: URI : http://loop.frontiersin.org/people/462961/overview

Shaili Perez: URI : http://loop.frontiersin.org/people/461411/overview

Bozena Nejman-Falenczyk: URI : http://loop.frontiersin.org/people/455901/overview

Grzegorz Wegrzyn: URI : http://loop.frontiersin.org/people/31488/overview

Logan W. Donaldson: URI : http://loop.frontiersin.org/people/368311/overview

Alicja Wegrzyn: URI : http://loop.frontiersin.org/people/455556/overview

Journal

Journal ID (nlm-ta): Front Microbiol

Journal ID (iso-abbrev): Front Microbiol

Journal ID (publisher-id): Front. Microbiol.

Title: Frontiers in Microbiology

Publisher: Frontiers Media S.A.

ISSN (Electronic): 1664-302X

Publication date (Electronic): 25 August 2017

Publication date Collection: 2017

Volume: 8

Electronic Location Identifier: 1618

Affiliations

[1] ¹Department of Molecular Biology, Faculty of Biology, University of Gdansk Gdansk, Poland

[2] ²Department of Biology, York University Toronto, ON, Canada

[3] ³Institute of Biochemistry and Biophysics, Polish Academy of Sciences Warsaw, Poland

Author notes

Edited by: Manuel Espinosa, Centro de Investigaciones Biológicas (CSIC), Spain

Reviewed by: Radoslaw Pluta, International Institute of Molecular and Cell Biology in Warsaw (IIMCB), Poland; Ramon Diaz Orejas, Consejo Superior de Investigaciones Científicas (CSIC), Spain; Dhruba Chattoraj, National Institutes of Health, United States

*Correspondence: Alicja Wegrzyn alicja.wegrzyn@ 123456biol.ug.edu.pl

This article was submitted to Evolutionary and Genomic Microbiology, a section of the journal Frontiers in Microbiology

†These authors have contributed equally to this work.

Article

DOI: 10.3389/fmicb.2017.01618

PMC ID: 5575149

PubMed ID: 28890713

SO-VID: 645bad3e-0cde-493c-b51b-2a2098a61cb8

License:

This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

History

Date received : 30 June 2017

Date accepted : 08 August 2017

Page count

Figures: 8, Tables: 3, Equations: 0, References: 33, Pages: 12, Words: 8161

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