Pharmacological iron-chelation as an assisted nutritional immunity strategy against Piscirickettsia salmonis infection

Mario Caruffo,Liliana Montt,José Manuel Yánez,Madelaine Mejías,Ignacio Chávez-Báez,Francisca Vera-Tamargo,Rodrigo Pulgar,Jurij Wacyk,Javiera Pérez-Valenzuela,Daniela Ortiz,Pablo Salgado,Dinka Mandakovic

doi:10.1186/s13567-020-00845-2

Abstract

Salmonid Rickettsial Septicaemia (SRS), caused by Piscirickettsia salmonis, is a severe bacterial disease in the Chilean salmon farming industry. Vaccines and antibiotics are the current strategies to fight SRS; however, the high frequency of new epizootic events confirms the need to develop new strategies to combat this disease. An innovative opportunity is perturbing the host pathways used by the microorganisms to replicate inside host cells through host-directed antimicrobial drugs (HDAD). Iron is a critical nutrient for P. salmonis infection; hence, the use of iron-chelators becomes an excellent alternative to be used as HDAD. The aim of this work was to use the iron chelator Deferiprone (DFP) as HDAD to treat SRS. Here, we describe the protective effect of the iron chelator DFP over P. salmonis infections at non-antibiotic concentrations, in bacterial challenges both in vitro and in vivo. At the cellular level, our results indicate that DFP reduced the intracellular iron content by 33.1% and P. salmonis relative load during bacterial infections by 78%. These findings were recapitulated in fish, where DFP reduced the mortality of rainbow trout challenged with P. salmonis in 34.9% compared to the non-treated group. This is the first report of the protective capacity of an iron chelator against infection in fish, becoming a potential effective host-directed therapy for SRS and other animals against ferrophilic pathogens.

Highlights

Infectious diseases are responsible for considerable economic losses in salmon farming
We investigated which nonantibiotic concentrations of DFP against in vitro and in vivo P. salmonis infections demonstrate its capacity as host-directed antimicrobial drugs (HDAD) against Salmonid Rickettsial Septicaemia (SRS)
The use of host-directed antimicrobial drugs (HDAD) against intracellular pathogens can be an option to avoid the use of antibiotics, and their subsequent effects on microbial resistance [9, 10, 35]

Summary

Introduction

Infectious diseases are responsible for considerable economic losses in salmon farming. It has been reported that P. salmonis is the main bacterial pathogen for which a high amount of antibiotics is being used in the Chilean salmon farming industry [6]. This strategy of pathogen-directed antimicrobial drug (PDAD) targeting is associated with increased microbial drug resistance and a resurgence of infectious diseases [7]. In the case of SRS, strains of P. salmonis resistant to quinolones have already been reported [8] In this regard, the limited effectiveness of current management, prevention and treatment strategies, Caruffo et al Vet Res (2020) 51:134 confirms the need to develop new strategies to combat this disease

Objectives

Methods

Results

Conclusion