PUBLICATION
High mortality in a large-scale zebrafish colony (Brachydanio rerio Hamilton & Buchanan, 1822) associated with Lecythophora mutabilis (van Beyma) W. Gams & McGinnis.
- Authors
- Dykstra, M.J., Astrofsky, K.M., Schrenzel, M.D., Fox, J.G., Bullis, R.A., Farrington, S., Sigler, L., Rinaldi, M.G., and McGinnis, M.R
- ID
- ZDB-PUB-011010-1
- Date
- 2001
- Source
- Comparative medicine 51(4): 361-368 (Journal)
- Registered Authors
- Astrofsky, Keith M., Farrington, Sarah
- Keywords
- none
- MeSH Terms
-
- Air Microbiology
- Animals
- Antifungal Agents/pharmacology
- Bacteria/isolation & purification
- Biofilms
- Disease Outbreaks/veterinary*
- Filtration
- Fish Diseases/microbiology
- Fish Diseases/mortality*
- Fisheries*/instrumentation
- Gills/microbiology
- Massachusetts/epidemiology
- Mycoses/microbiology
- Mycoses/mortality
- Mycoses/veterinary*
- Opportunistic Infections/microbiology
- Opportunistic Infections/mortality
- Opportunistic Infections/veterinary*
- Sordariales/drug effects
- Sordariales/isolation & purification*
- Sterilization
- Water Microbiology
- Water Supply
- Zebrafish/microbiology*
- PubMed
- 11924796
Citation
Dykstra, M.J., Astrofsky, K.M., Schrenzel, M.D., Fox, J.G., Bullis, R.A., Farrington, S., Sigler, L., Rinaldi, M.G., and McGinnis, M.R (2001) High mortality in a large-scale zebrafish colony (Brachydanio rerio Hamilton & Buchanan, 1822) associated with Lecythophora mutabilis (van Beyma) W. Gams & McGinnis.. Comparative medicine. 51(4):361-368.
Abstract
Zebrafish (Brachydanio rerio) have become an important model system for studying vertebrate embryonic development and gene function through manipulation of genotype and characterization of resultant phenotypes. An established research zebrafish colony without substantial disease problems for more than 7 years of operation began experiencing appreciable mortalities in November of 1997. Young fish (fry), from five to 24 days after hatching, spontaneously developed elongate strands of organic material protruding from the mouth, operculum, and anal pore, leading workers in the laboratory to describe the infected fish as "bearded." Unlike typical freshwater fish fungal infections, the skin surface did not have evidence of fungal colonization. The disease was associated with progressive lethargy, reduced feeding, and subsequent mortality. From 10 to 100% of the fry in a given tank were affected. Initial examination indicated that the biofilm around the head of affected fry consisted of bundles of septate fungal hyphae, large numbers of mixed bacterial populations, and protozoans. Environmental samples of air and water in the laboratory were obtained to ascertain the source of the infective agent and to isolate and identify the fungus. A fungus identified as Lecythophora mutabilis was isolated repeatedly from infected fish and water samples from infected fish tanks, and from the main laboratory water supply tanks, but not from laboratory air. Some biofilm beards on fish were found to consist of relatively pure bacterial populations, and beards on occasional fish examined in the later part of the study consisted of hyphae and spores of the oomycete genus Aphanomyces. Lecythophora mutabilis did not invade tissues; however, elimination of the epizootic correlated with reduction in the number of L. mutabilis conidia in the water following modification of the laboratory water system by use of new filtration and sterilization systems. We conclude that the dense hyphal strands of L. mutabilis composing the predominant biofilm type, along with mixed bacteria and protozoa, contributed to the die-off in young fry by occluding the oral cavity and/or gills, leading to starvation and/or asphyxiation.
Genes / Markers
Expression
Phenotype
Mutations / Transgenics
Human Disease / Model
Sequence Targeting Reagents
Fish
Orthology
Engineered Foreign Genes
Mapping