Isolation and Characterization of Bacteriophages That Infect Citrobacter rodentium, a Model Pathogen for Intestinal Diseases.

Carolina M Mizuno,Tiffany Luong,Laurent Debarbieux,Robert Cederstrom,Mart Krupovic,Dwayne R Roach

doi:10.3390/v12070737

Carolina M Mizuno, Tiffany Luong + Show 4 more

Open Access

https://doi.org/10.3390/v12070737

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Journal: Viruses	Publication Date: Jul 8, 2020
Citations: 17	License type: CC BY 4.0

Affiliation: Institut Pasteur, San Diego State University

Abstract

Enteropathogenic Escherichia coli (EPEC) is a major pathogen for diarrheal diseases among children. Antibiotics, when used appropriately, are effective; however, their overuse and misuse have led to the rise of antibiotic resistance worldwide. Thus, there are renewed efforts into the development of phage therapy as an alternative antibacterial therapy. Because EPEC in vivo models have shortcomings, a surrogate is used to study the mouse pathogen Citrobacter rodentium in animal models. In this study, two new phages CrRp3 and CrRp10, which infect C. rodentium, were isolated and characterized. CrRp3 was found to be a new species within the genus Vectrevirus, and CrRp10 is a new strain within the species Escherichia virus Ime09, in the genus Tequatrovirus. Both phages appear to have independently evolved from E. coli phages, rather than other Citrobacter spp. phages. Neither phage strain carries known genes associated with bacterial virulence, antibiotic resistance, or lysogeny. CrRp3 is more potent, having a 24-fold faster adsorption rate and shorter lytic cycle when compared to the same properties of CrRp10. However, a lysis curve analysis revealed that CrRp10 prevented growth of C. rodentium for 18 h, whereas resistance developed against CrRp3 within 9 h. We also show that hypoxic (5% oxygen) conditions decreased CrRp3 ability to control bacterial densities in culture. In contrast, low oxygen conditions did not affect CrRp10 ability to replicate on C. rodentium. Together, CrRp10 is likely to be the better candidate for future phage therapy investigations.

Highlights

Diarrheal diseases continue to be one of the foremost public health issues globally, responsible for more than 1.6 million deaths each year [1]
C. rodentium phages were isolated from 0.25 μm syringe filtered (Sartorius, Göttingen, Germany) sewage sample collected from water treatment plants around Paris, France
We show that the podovirus CrRp3 is a tentative new species within the genus Vectrevirus in the family Autographiviridae, while the myovirus CrRp10 is a new strain within the Tequatrovirus genus in the family Myoviridae

Summary

Introduction

Diarrheal diseases continue to be one of the foremost public health issues globally, responsible for more than 1.6 million deaths each year [1]. Antibiotics can reduce the severity and duration of diarrheal diseases; the overuse and misuse of antibiotics in the treatment of diarrhea has led to an alarming increase in antibiotic resistance (AMR) globally [1,2,3]. These observations illustrate that diarrhea mortality is largely avoidable and renewed efforts to reduce disease the burden with non-antibiotic strategies are urgently needed.

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