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Article

Novel DNA-based in situ hybridization method to detect Desmozoon lepeophtherii in Atlantic salmon tissues

Details

Citation

Herrero A, Palenzuela O, Rodger H, Matthews C, Marcos-Lopez M, Bron JE, Dagleish MP & Thompson KD (2022) Novel DNA-based in situ hybridization method to detect Desmozoon lepeophtherii in Atlantic salmon tissues. Journal of Fish Diseases. https://doi.org/10.1111/jfd.13612

Abstract
The microsporidian Desmozoon lepeophtherii Freeman and Sommerville, 2009 is considered significant in the pathogenesis of gill disease in Atlantic salmon (Salmo salar Linnaeus, 1758). Due to the difficulty in detecting D. lepeophtherii in tissue sections, infections are normally diagnosed by molecular methods, routine haematoxylin and eosin (H&E) stained gill tissue sections and the use of other histochemical stains and labels to confirm the presence of spores. An in situ hybridization (ISH) protocol specific for D. lepeophtherii was developed using DIG-labelled oligonucleotide probes. Diseased Atlantic salmon gills were analysed by ISH, calcofluor white (CW) and H&E. All methods showed high levels of specificity (100%) in their ability to detect D. lepeophtherii, but the sensitivity was higher with ISH (92%), compared with CW (64%) and the presence of microvesicles on H&E stained sections (52%). High levels of D. lepeophtherii spores were significantly associated (p < .05) with the development of D. lepeophtherii-associated pathology in the gills, with Ct values below 19 and over 100 microsporidia/10 mm2 of gill tissue (from the ISH counts) seemingly necessary for the development of microvesicles. The ISH method has the advantage over other histological techniques in that it allows all life stages of the microsporidian to be detected in infected salmon gill tissue sections.

Keywords
Desmozoon lepeophtherii; gill disease; ISH; microsporidian; Paranucleospora theridion

Notes
Output Status: Forthcoming/Available Online

Journal
Journal of Fish Diseases

StatusEarly Online
Funders
Publication date online30/03/2022
Date accepted by journal13/03/2022
URL
ISSN0140-7775
eISSN1365-2761

People (1)

Professor James Bron

Professor James Bron

Professor, Institute of Aquaculture

Projects (1)

AquaExcel2020
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