PUBLICATION

Paramecium caudatum enhances transmission and infectivity of Mycobacterium marinum and M. chelonae in zebrafish Danio rerio

Authors

Peterson, T.S., Ferguson, J.A., Watral, V.G., Mutoji, K.N., Ennis, D.G., Kent, M.L.

ID

ZDB-PUB-131203-24

Date

2013

Source

Diseases of aquatic organisms 106(3): 229-39 (Journal)

Registered Authors

Kent, Michael

Keywords

none

MeSH Terms

Aging
Animals
Ciliophora Infections/complications
Ciliophora Infections/parasitology
Ciliophora Infections/veterinary*
Fish Diseases/microbiology
Fish Diseases/parasitology*
Fish Diseases/transmission
Larva
Mycobacterium Infections/microbiology
Mycobacterium Infections/transmission
Mycobacterium Infections/veterinary*
Mycobacterium chelonae*
Mycobacterium marinum*
Paramecium caudatum*
Refrigeration
Zebrafish/growth & development
Zebrafish/microbiology
Zebrafish/parasitology

PubMed

24192000 Full text @ Dis. Aquat. Organ.

Abstract

Mycobacterial infections in laboratory zebrafish Danio rerio are common and widespread in research colonies. Mycobacteria within free-living amoebae have been shown to be transmission vectors for mycobacteriosis. Paramecium caudatum are commonly used as a first food for zebrafish, and we investigated this ciliate’s potential to serve as a vector of Mycobacterium marinum and M. chelonae. The ability of live P. caudatum to transmit these mycobacteria to larval, juvenile and adult zebrafish was evaluated. Infections were defined by histologic observation of granulomas containing acid-fast bacteria in extraintestinal locations. In both experiments, fish fed paramecia containing mycobacteria became infected at a higher incidence than controls. Larvae (exposed at 4 d post hatch) fed paramecia with M. marinum exhibited an incidence of 30% (24/80) and juveniles (exposed at 21 d post hatch) showed 31% incidence (14/45). Adult fish fed a gelatin food matrix containing mycobacteria within paramecia or mycobacteria alone for 2 wk resulted in infections when examined 8 wk after exposure as follows: M. marinum OSU 214 47% (21/45), M. marinum CH 47% (9/19), and M. chelonae 38% (5/13). In contrast, fish fed mycobacteria alone in this diet did not become infected, except for 2 fish (5%) in the M. marinum OSU 214 low-dose group. These results demonstrate that P. caudatum can act as a vector for mycobacteria. This provides a useful animal model for evaluation of natural mycobacterial infections and demonstrates the possibility of mycobacterial transmission in zebrafish facilities via contaminated paramecia cultures.

Genes / Markers

Figures

Expression

Phenotype

Mutations / Transgenics

Human Disease / Model

Sequence Targeting Reagents

Fish

Antibodies

Orthology

Engineered Foreign Genes

Mapping

Peterson et al., 2013 ZDB-PUB-131203-24 PMID:24192000

Paramecium caudatum enhances transmission and infectivity of Mycobacterium marinum and M. chelonae in zebrafish Danio rerio

Peterson et al., 2013

ZDB-PUB-131203-24
PMID:24192000