The isolation, propagation and characterization of tissue-cultured equine rotaviruses.
Abstract: From 105 field cases of diarrhea in neonatal or young foals, rotavirus was detected by electron microscopy (EM) and/or by enzyme-linked immunosorbent assay (ELISA) in the feces of 65 foals on 16 different premises. ELISA was performed with Rotazyme test kits developed by Abbot and Company for the detection of rotaviruses. Twenty-four field isolates from the feces of diarrheic foals with equine rotavirus infection as ascertained by EM were placed in MA-104 cell cultures after pretreatment of the viral suspension with 10 micrograms ml-1 of trypsin and incorporation of 0.5 micrograms ml-1 or 1 microgram ml-1 of trypsin in Earle's minimal essential medium (MEM), 2% lactalbumen hydrolysate, and antibiotics. The isolates that replicated in cell culture produced varying degrees of cytopathic effect. After the 24 isolates had been transferred 5 or 7 times in cell culture, viral particles were observed in 17 by EM, and 22 had positive ELISA tests as determined by visual color chart and spectrophotometric readings. Concentrated tissue-cultured viral antigen of 9 isolates fixed complement using Nebraska calf diarrhea rotavirus calf antiserum while four isolates gave negative results. The same 13 tissue-cultured viral suspensions failed to fix complement using reovirus antiserum. The 9th passages of two isolates (EID1 and EID2) yielded titers of 10(4.45) ml-1 TCID50 and of 10(4.95) ml-1 TCID50, respectively, as measured by cytopathic effect. After 13 tissue-cultured passages, 2 other isolates, EID3 and EID4, each had titers of 10(6.2) ml-1 TCID50 and of 10(5.95) ml-1 TCID, respectively. Cytoplasmic or intranuclear inclusions were not seen in any cells of the MA-104 infected cell cultures. Small, but distinct, plaques in MA-104 cell cultures were produced by the EID1 isolate. Polyacrylamide gel electrophoresis tests of EID1 and EID2 isolates at the 9th cell passage and EID3 and EID4 isolates at the 13th cell passage each showed that the RNA genome had 11 segments with a migrating pattern that was identical for each isolate and characteristic of rotaviruses. These 4 equine tissue-cultured isolates when tested by ELISA, utilizing a monoclonal antibody serum pool that cross-reacted with many rotavirus isolates, each gave positive values comparable to rotavirus antigen controls.
Publication Date: 1984-02-01 PubMed ID: 6326375DOI: 10.1016/0378-1135(84)90074-9Google Scholar: Lookup
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- Journal Article
- Research Support
- Non-U.S. Gov't
- Research Support
- U.S. Gov't
- P.H.S.
Summary
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The study involves the process of collecting, growing, and studying rotavirus strains from young horses with diarrhea. After growing in a cell culture, each virus sample was examined for cytopathic effects, the ability to replicate, and other characteristics unique to rotaviruses.
Methodology and Experimentation
- The authors examined 105 instances of diarrhea in young or newborn foals from different sources. Using the Rotazyme kit, researchers used an enzyme-linked immunosorbent assay (ELISA) and electron microscopy (EM), to detect rotavirus in 65 of these cases.
- Twenty-four field samples confirmed to carry equine rotavirus by EM were then grown in MA-104 cell cultures, treated and then examined. They looked out for cytopathic effects, the visible changes that occur in cells when a virus is present.
- In about 17 out of 24, rotaviruses were observed in the cell culture using electron microscopy, and 22 out of 24 tested positive for the ELISA test.
Observations and Results
- According to the tests run on the viral antigens of 9 isolates, they successfully countered the effects of an antiserum normally used against calf diarrhea rotavirus. However, when tested with a reovirus antiserum, none of the 13 viral suspensions fixed complement.
- Throughout the cell culture passages, the study could identify and observe the viral count increase and how each isolate reacted differently.
- The researchers found that none of the cultures exhibited cytoplasmic or intranuclear inclusions.
- The EID1 isolate produced distinct plaques in the MA-104 cell cultures, showing a characteristic of this strain.
Scientific Findings and Conclusions
- In the 9th cell passage, EID1 and EID2 isolates were found to have RNA genomes with a characteristic migrating pattern of 11 segments. This was also found for EID3 and EID4 in 13th cell passage, showing a common characteristic of rotaviruses.
- All four equine tissue-cultured isolates provided positive ELISA values, suggesting the presence of rotavirus antigens. These results were comparable to the control antigens.
- Overall, these observations help better understand the behavior of rotaviruses in horses and could potentially provide insights into feasible methods for managing such viral infections in the future.
Cite This Article
APA
Gillespie J, Kalica A, Conner M, Schiff E, Barr M, Holmes D, Frey M.
(1984).
The isolation, propagation and characterization of tissue-cultured equine rotaviruses.
Vet Microbiol, 9(1), 1-14.
https://doi.org/10.1016/0378-1135(84)90074-9 Publication
Researcher Affiliations
MeSH Terms
- Animals
- Cell Line
- Complement Fixation Tests
- Cytopathogenic Effect, Viral
- Diarrhea / microbiology
- Diarrhea / veterinary
- Enzyme-Linked Immunosorbent Assay
- Feces / microbiology
- Horse Diseases / microbiology
- Horses / microbiology
- Inclusion Bodies, Viral
- Macaca mulatta
- Microscopy, Electron
- RNA, Viral / analysis
- Rotavirus / classification
- Rotavirus / growth & development
- Rotavirus / isolation & purification
- Rotavirus Infections / microbiology
- Rotavirus Infections / veterinary
- Viral Plaque Assay
- Virus Cultivation
- Virus Replication
Citations
This article has been cited 7 times.- Ciarlet M, Reggeti F, Piña CI, Liprandi F. Equine rotaviruses with G14 serotype specificity circulate among venezuelan horses. J Clin Microbiol 1994 Oct;32(10):2609-12.
- Browning GF, Chalmers RM, Sale CS, Fitzgerald TA, Snodgrass DR. Homotypic and heterotypic serum and milk antibody to rotavirus in normal, infected and vaccinated horses. Vet Microbiol 1991 May;27(3-4):231-44.
- Browning GF, Chalmers RM, Snodgrass DR, Batt RM, Hart CA, Ormarod SE, Leadon D, Stoneham SJ, Rossdale PD. The prevalence of enteric pathogens in diarrhoeic thoroughbred foals in Britain and Ireland. Equine Vet J 1991 Nov;23(6):405-9.
- Browning GF, Fitzgerald TA, Chalmers RM, Snodgrass DR. A novel group A rotavirus G serotype: serological and genomic characterization of equine isolate FI23. J Clin Microbiol 1991 Sep;29(9):2043-6.
- Hardy ME, Woode GN, Xu ZC, Williams JD, Conner ME, Dwyer RM, Powell DG. Analysis of serotypes and electropherotypes of equine rotaviruses isolated in the United States. J Clin Microbiol 1991 May;29(5):889-93.
- Browning GF, Chalmers RM, Fitzgerald TA, Snodgrass DR. Evidence for two serotype G3 subtypes among equine rotaviruses. J Clin Microbiol 1992 Feb;30(2):485-91.
- Browning GF, Chalmers RM, Fitzgerald TA, Corley KT, Campbell I, Snodgrass DR. Rotavirus serotype G3 predominates in horses. J Clin Microbiol 1992 Jan;30(1):59-62.
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