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An <i>in‐vitro</i> study on a novel six‐phage cocktail against multi‐drug resistant‐ESBL <i>Shigella</i> in aquatic environment

Khashayar Shahin, L. Zhang, H. Bao, Abolghasem Hedayatkhah, Abbas Soleimani-Delfan, Majid Komijani, Tao He, Mohadeseh Barazandeh, Mojtaba Mansoorianfar, Majid Bouzari, Ran Wang

2020Letters in Applied Microbiology28 citationsDOI

Abstract

Shigella spp. are water-borne pathogens responsible for mild to severe cases bacilli dysentery all around the world known as Shigellosis. The progressively increasing of antibiotic resistance among Shigella calls for developing and establishing novel alternative therapeutic methods. The present study aimed to evaluate a novel phage cocktail of lytic phages against extended spectrum beta lactamase isolates of Shigella species in an aquatic environment. The phage cocktail containing six novel Shigella specific phages showed a broad host spectrum. The cocktail was very stable in aquatic environment. The cocktail resulted in about 99% decrease in the bacterial counts in the contaminated water by several species and strains of Shigella such as Shigella sonnei, Shigella flexneri and Shigella dysenteriae. Achieving such a high efficiency in this in-vitro study demonstrates a high potential for in-vivo and in-situ application of this phage cocktail as a bio-controlling agent against Shigella spp. contamination and infections.

Topics & Concepts

ShigellaMicrobiologyDrug resistanceBiologyMulti drug resistantDrugVirologyIn vitroShigellosisBacteriaSalmonellaPharmacologyGeneticsBacteriophages and microbial interactionsBiosensors and Analytical DetectionEscherichia coli research studies
An <i>in‐vitro</i> study on a novel six‐phage cocktail against multi‐drug resistant‐ESBL <i>Shigella</i> in aquatic environment | Litcius