Comparison of enzyme-linked immunosorbent and virus neutralization assays for the serology of reovirus infections in laboratory animals

An enzyme-linked immunosorbent assay (ELISA) for the detection and quantification of reovirus-specific IgM and IgG serum antibodies in rodents, detecting reovirus group reactive antibodies, was compared with reovirus types 1, 2 or 3 specific virus neutralization (VN) assays. To this end, serum samples were collected from specific pathogen-free (SPF) BALB/c RIVM mice, after experimental infection with any of the three mammalian reovirus serotypes. The majority (seven out of twelve) of the reovirus type 1-infected and one third (two out of six) of the reovirus type 3-infected mice died within 15 days after infection, whereas all (six out of six) of the reovirus type 2-infected animals survived. Using reovirus type 2 antigen in the ELISA, reovirus-specific IgM antibodies could be demonstrated within 1 week after infection in all the mice infected with reovirus types 2 or 3 and in the majority of the mice infected with type 1. Similarly, reovirus-specific IgG could be detected within 3 weeks in all the surviving mice infected with reovirus types 2 or 3 and within 5 weeks in all surviving mice infected with reovirus type 1. These results coincided well with the data obtained in the VN assays, in which all the infected animals also could be detected within 1 week after infection. As expected, titers were detected most rapidly and to the highest levels in the homologous VN assays. Given the sensitivity and the specificity of the ELISA system demonstrated in this paper and its suitability for incorporation in automated systems, the ELISA system should be considered valuable for the routine serologic diagnosis of reovirus infections in rodents.     

Evaluation of five hepatitis C virus screening tests and two supplemental assays: performance when testing sera from sexually transmitted diseases clinic attendees in the USA

The performances of five screening tests (recombinant peptide-based first and second generation tests from Abbott and Ortho, and a synthetic peptide-based test from Biochem Immunosystems) and two supplemental tests: recombinant peptide- based, Abbott neutralization test and Chiron second generation recombinant immunoblot assay (RIBA 2), were evaluated for their ability to detect hepatitis C virus (HCV) antibodies in a population of 276 individuals attending a sexually transmitted diseases (STD) clinic in the USA. Although the five screening tests produced a variable number (35-62) of repeatedly reactive samples, only 13% (36/276) were classified as true positives by the supplemental tests. Thirty-four of the 36 were reactive by all screening tests and 32 of the true positives were reactive by both supplemental tests, while 2 did not neutralize but were reactive in the RIBA 2 test. Of the remaining 2 of the true positives which were discordant by several of the screening assays, 1 was confirmed by both supplemental assays but the other required a chemiluminescent enhancement technique to show positivity in RIBA 2. The sensitivities of the first and second generation Abbott and Ortho tests ranged from 97% to 100% and that of the Biochem test was 94%. The specificities of these tests ranged from 89.2% to 99.6%. The second generation Ortho test presented 9.4% (26/276) false positives. The use of second generation Ortho as a screening test would lead to an excessive number of confirmatory false positives. the positive predictive values of the screening tests ranged from 58.1% to 97.1%. Although the synthetic peptide based Biochem test exhibited the best overall indices, the presence of 2 false negative results would prevent its use as a singular screening test. Nevertheless its high specificity may lend itself to be used as a second screening test before confirmatory testing with RIBA 2.     

Administration of vaccinia virus to mice may cause contact or bedding sentinel mice to test positive for orthopoxvirus antibodies: case report and follow-up investigation

Routine testing of bedding sentinels from a barrier room revealed one mouse seropositive to ectromelia virus (EV). Results of hemagglutination-inhibition testing and western blot analysis were confirmatory for orthopoxvirus antibodies. Additional seropositive animals were not identified. Interviews indicated that replication-competent vaccinia virus (VV), Western Reserve strain (VV-WR), recently had been given to mice. Although VV-WR was not expected to spread by contact or via fomites, the case evidence suggested transmission of vaccinia via soiled bedding. In a follow-up experiment, 15 index mice were inoculated with 10(7) plaque-forming units of VV by either subcutaneous or intrarectal instillation. A dedicated contact sentinel and a bedding sentinel were provided for each index mouse. All 15 index mice were positive for antibodies when tested 22 days after inoculation. One mouse, inoculated by the subcutaneous route, appeared ill and developed lesions on the proximal portion of the tail. The contact sentinel mouse housed with this index mouse was the only sentinel to seroconvert. We conclude that VV-WR can spread to contact sentinels and potentially to bedding sentinels. The ability of other VV strains to be transmitted horizontally and the susceptibility of different mouse strains to infection merit further investigation. The use of VV in animal facilities must be managed carefully since the available serologic tests do not distinguish between VV and EV, an exotic agent of major concern to laboratory animal facilities.     

Biological values of the infant, juvenile, and adult agouti (Dasyprocta sp) with emphasis on microbial flora.

Normal values for intestinal flora were determined on four adult, two juvenile, and four infant agoutis (Dasyprocta sp) maintained at our institution. Serologic, hematologic, biochemical, and histologic observations were also made on these same agoutis, and serologic, microbiologic, and endoparasitic tests were made on serum and fecal samples from agoutis maintained at other institutions. Streptococci, lactobacilli and nonenteropathogenic Escherichia coli were isolated from cecal contents of all age groups. Gaffkya tetragena and Bacillus sp were recovered from infant agoutis, Proteus mirabilis from juvenile agoutis, and Proteus mirabilis and Micrococcus sp from adult agoutis. Infant agoutis showed marginal antibody titers to reovirus type 3 and Toolan's H-1 viruses, and Theiler's GDVII antibodies were detected in juvenile agoutis, but no antibody titers to murine viruses were found in the adult agoutis maintained at our institution. Hematologic, biochemical, and histologic data for these agoutis were comparable to those of other hystricomorph rodents. Serologic tests of the agoutis maintained at other institutions disclosed antibodies for GDVII virus in all of 17 animals tested, while marginal titers were found for Sendai virus in four and for reovirus type 3 in eight of the 17 animals. Only low incidences of pathogenic bacteria (Salmonella, Pseudomonas, and Citrobacter) were isolated from the agoutis maintained elsewhere. The endoparasites found in these agoutis were Ascaris, Toxascaris, Strongyloides, Trichuris, and Trichomonas.     

Serological diagnosis of syphilis: comparison of the Trep-Chek IgG enzyme immunoassay with other screening and confirmatory tests

The Trep-Chek IgG Enzyme Immunoassay (Trep-Chek IgG EIA) was evaluated with 604 serum specimens submitted for syphilis serology from patients across Canada against a battery of conventional syphilis serology tests, including the Rapid Plasma Reagin (RPR) test, the Venereal Disease Research Laboratory (VDRL) test, the Treponema pallidum passive particle agglutination (TP-PA) test, the fluorescent treponemal antibody absorption (FTA-ABS) test, and the newer confirmatory test, Innogenetics INNO-LIA. On the basis of a consensus result derived from these serologic tests, 34 specimens were found to be syphilis-positive (28 active and six past infections), and 570 were syphilis-negative (including 12 biological false positives). When the test results on this set of samples were compared to those obtained with the conventional tests RPR, VDRL, TP-PA, and FTA-ABS, the sensitivity and specificity of the Trep-Chek IgG EIA were found to be 85.3% and 95.6%, respectively. Without further evaluation, we do not recommend use of the Trep-Chek IgG EIA as a stand-alone test for either screening or confirmatory syphilis serology.     

Prevalence of naturally occurring viral infections, Mycoplasma pulmonis and Clostridium piliforme in laboratory rodents in Western Europe screened from 2000 to 2003

In this report prevalence rates of rodent viruses in laboratory animals are presented based on routine serological screening of mouse and rat colonies from European institutes. The prevalences found during the period 2000-2003 are compared with those reported for 1981-1984 and 1990-1993. It is shown that some infections were eliminated from laboratory animal colonies (e.g. K-virus and polyomavirus) by taking preventative measures whereas other infections such as mouse hepatitis virus and parvoviruses remained at a high rate. Further decreases in prevalence rates in the last 10 years were found for infections such as pneumonia virus of mice, reovirus type 3, Sendai virus, sialodacryoadenitis/rat coronavirus and Mycoplasma pulmonis. The introduction of new detection methods showed that mouse parvovirus and rat parvovirus, both members of the Parvoviridae family, remain a major threat to laboratory mice and rats. Guinea pig cytomegalovirus and para-influenza virus appeared to be the most prevalent agents among laboratory guinea pigs. The importance of a standardized, up-to-date screening programme is discussed.     

Evaluation of mouse thymic virus antibody detection techniques

Three serologic test methods for detection of serum antibodies to mouse thymic virus (MTV) were compared, including enzyme-linked immunosorbent assay (ELISA), complement fixation (CF) test and indirect fluorescent antibody (IFA) test. Serum was collected at regular intervals from CD-1 mice inoculated intraperitoneally with approximately 200 infectious doses of MTV, and from uninoculated mice placed in cages with the inoculated animals. The inoculated mice became MTV antibody-positive by all three assay methods at 15 days post inoculation, while the cage-contacts were seropositive by all methods at 30 days after contact. Although the incidence of positive results was similar by all methods, titers measured by ELISA were substantially higher than those measured by CF and IFA tests. Because MTV can cause persistent infections that adversely affect the suitability of mice for research, it is recommended that testing for antibodies to this virus be performed routinely.     

Infectious Diseases in Wild Mice (Mus musculus) Collected on and around the University of Pennsylvania (Philadelphia) Campus

Laboratory mice serve as important models in biomedical research. Monitoring these animals for infections and infestations and excluding causative agents requires extensive resources. Despite advancements in detection and exclusion over the last several years, these activities remain challenging for many institutions. The infections and infestations present in laboratory mouse colonies are well documented, but their mode of introduction is not always known. One possibility is that wild rodents living near vivaria somehow transmit infections to and between the colonies. This study was undertaken to determine what infectious agents the wild mice on the University of Pennsylvania (Philadelphia) campus were carrying. Wild mice were trapped and evaluated for parasites, viruses, and selected bacteria by using histopathology, serology, and PCR-based assays. Results were compared with known infectious agents historically circulating in the vivaria housing mice on campus and were generally different. Although the ectoparasitic burdens found on the 2 populations were similar, the wild mice had a much lower incidence of endoparasites (most notably pinworms). The seroprevalence of some viral infections was also different, with a low prevalence of mouse hepatitis virus among wild mice. Wild mice had a high prevalence of murine cytomegalovirus, an agent now thought to be confined to wild mouse populations. Helicobacter DNA was amplified from more than 90% of the wild mice (59% positive for H. hepaticus). Given the results of this study, we conclude that wild mice likely are not a source of infection for many of the agents that are detected in laboratory mouse colonies at the University of Pennsylvania.Abbreviations: EDIM, epizootic diarrhea of infant mice; MAV, mouse adenovirus; MCMV, murine cytomegalovirus; MFIA, multiplex fluorescent immunoassay; MHV, mouse hepatitis virus; MNV, murine norovirus; MPV, mouse parvovirus; MVM, minute virus of mice; TMEV, Theiler mouse encephalomyelitis virusLaboratory mice constitute the most popular animal models used in biomedical research today. Like all animals, even mice housed in so-called ‘barrier’ facilities are subject to infection. The infectious agents and organisms present in laboratory mouse colonies on the University of Pennsylvania campus are known and documented by the University Laboratory Animal Resources Diagnostic Services Unit. Sentinel mice that are housed on soiled bedding from resident mouse cages are screened onsite at 3 quarterly intervals for fur mites and pinworms and for a panel of viral infections: mouse hepatitis virus (MHV); epizootic diarrhea of infant mice (EDIM) virus; minute virus of mice (MVM); mouse parvovirus (MPV); Theiler mouse encephalomyelitis virus (TMEV); and Sendai virus. Comprehensive bacteriology and parasitology assessments are performed on all sentinels once yearly during the fourth quarter. In addition, these sentinels are screened serologically for 18 viral infections, Mycoplasma pulmonis, cilia-associated respiratory bacillus, and Encephalitozoon cuniculi and by PCR for Helicobacter spp. and M. pulmonis. Mesenteric lymph nodes from sentinels monitoring barrier-maintained colonies are also screened once yearly by PCR for MPV. In addition, University Laboratory Animal Resources maintains a quarantine facility for rodents received from nonapproved sources (sources other than selected commercial breeding facilities). Mice entering the quarantine facility are housed in semirigid isolators, and contact sentinels are tested for all of the agents included in the fourth quarter comprehensive health assessment described, including PCR for MPV.Wild mice (Mus musculus) could serve as a source of infection or infestation in laboratory mouse colonies, although little is known about the prevalence of infectious diseases in wild mouse populations in Philadelphia. However, we have surveyed wild mouse populations in other geographic areas.^1,9 Significant seroprevalence of MHV, EDIM, murine cytomegalovirus (MCMV), parvovirus, and thymic virus (murid herpesvirus 3), in addition to the presence of many types of parasites and bacteria including Myocoptes spp., Myobia spp., Radfordia spp., Spironucleus spp., Giardia spp., Pasteurella pneumotropica, Pseudomonas spp., and Leptospira spp. were found in wild populations of mice from farms in southeastern Connecticut.¹ Studies of wild mouse (Mus domesticus) populations in the cereal-growing region of southeastern Australia revealed a high serologic prevalence of MHV, EDIM, and MCMV, as well as significant seroprevalence of mouse adenovirus (MAV), MPV, and reovirus type 3.⁹The goal of the current study was to expand preliminary data obtained from wild mice trapped in the University City district of Philadelphia in 2005 (which are included with the current results from a 2007 survey). These data document the prevalence of various infectious agents and parasites commonly found in populations of wild mice on the University of Pennsylvania campus in Philadelphia and are discussed in the context of infectious disease outbreaks in campus vivaria over the past 5 y.     

A stable and differentiable RNA positive control for reverse transcription-polymerase chain reaction

Most RNA positive controls currently used for monitoring the quality of RT-PCR assays have some disadvantages, such as instability, inability to monitor the quality of the relevant primers and/or causing indifferentiable false positives. To avoid these disadvantages, a simple method to prepare stable and differentiable RNA positive controls is now demonstrated with a real-time RT-PCR assay for the detection of Nipah virus (NiV). A DNA sequence which was shorter than its counterpart in the NiV genome and contained the binding sites of the primers of the RT-PCR assay was designed, synthesized and inserted into a vector, and then amplified by PCR with two vector-specific primers both of which contained a T7 promoter at the 5' terminal. The RNA positive control was the dsRNA in vitro transcribed from the PCR amplicons flanked by two T7 promoters. The RNA positive control was stable and able to monitor the quality of the whole concerned RT-PCR assay. False positives caused by contaminations of the RNA positive control or its amplicons could be easily identified because the amplicons of the RNA positive control were obviously shorter than those of real positive samples. Thus, the RNA positive control reported in this study avoided some common disadvantages of current RNA positive controls.     

Outbreak of hind limb paralysis in young CFW Swiss Webster mice

An outbreak of paralysis among 16- to 20-week-old CFW Swiss Webster sentinel mice developed in one of our barrier facilities. Two months after arrival and over a period of four weeks, six of 400 mice purchased from an approved vendor, developed progressive hind limb paralysis without other clinical signs of disease. On the basis of the histopathologic changes and negative serologic test results, lymphoblastic lymphoma causing compression of the spinal cord was diagnosed. There were two leading features to this outbreak: its unusual epidemiologic presentation, and the localization of the lesions principally in the lumbar muscles. A presumptive diagnosis of retroviral infection with Abelson's murine leukemia virus (A-MuLV) was established on the basis of histopathologic and immunohistochemical findings. Little is known about retroviral status in many commercial colonies, and few users report presence of spontaneous lymphomas. This report points out complications derived from commercially available animals that carry endogenous retroviruses. It also emphasizes the need of diagnosing and reporting clusters of hind limb paralysis or lymphomas in mice to assess the prevalence and relevance of retroviral infections in commercial colonies.     

"Patchy-tachy" leads to false positives for recombination

Indirect tests have detected recombination in mitochondrial DNA (mtDNA) from many animal lineages, including mammals. However, it is possible that features of the molecular evolutionary process without recombination could be incorrectly inferred by indirect tests as being due to recombination. We have identified one such example, which we call "patchy-tachy" (PT), where different partitions of sequences evolve at different rates, that leads to an excess of false positives for recombination inferred by indirect tests. To explore this phenomena, we characterized the false positive rates of six widely used indirect tests for recombination using simulations of general models for mtDNA evolution with PT but without recombination. All tests produced 30-99% false positives for recombination, although the conditions that produced the maximal level of false positives differed between the tests. To evaluate the degree to which conditions that exacerbate false positives are found in published sequence data, we turned to 20 animal mtDNA data sets in which recombination is suggested by indirect tests. Using a model where different regions of the sequences were free to evolve at different rates in different lineages, we demonstrated that PT is prevalent in many data sets in which recombination was previously inferred using indirect tests. Taken together, our results argue that PT without recombination is a viable alternative explanation for detection of widespread recombination in animal mtDNA using indirect tests.     

Impact of Temporal Variation on Design and Analysis of Mouse Knockout Phenotyping Studies

A significant challenge facing high-throughput phenotyping of in-vivo knockout mice is ensuring phenotype calls are robust and reliable. Central to this problem is selecting an appropriate statistical analysis that models both the experimental design (the workflow and the way control mice are selected for comparison with knockout animals) and the sources of variation. Recently we proposed a mixed model suitable for small batch-oriented studies, where controls are not phenotyped concurrently with mutants. Here we evaluate this method both for its sensitivity to detect phenotypic effects and to control false positives, across a range of workflows used at mouse phenotyping centers. We found the sensitivity and control of false positives depend on the workflow. We show that the phenotypes in control mice fluctuate unexpectedly between batches and this can cause the false positive rate of phenotype calls to be inflated when only a small number of batches are tested, when the effect of knockout becomes confounded with temporal fluctuations in control mice. This effect was observed in both behavioural and physiological assays. Based on this analysis, we recommend two approaches (workflow and accompanying control strategy) and associated analyses, which would be robust, for use in high-throughput phenotyping pipelines. Our results show the importance in modelling all sources of variability in high-throughput phenotyping studies.     

Diagnosis of murine infections in relation to test methods employed

Comparative investigations of Sendai virus, pneumonia virus of mice (PVM), mouse encephalomyelitis virus (mouse polio), minute virus of mice (MVM), and reovirus type 3 (Reo 3) infected murine colonies revealed a 30% higher incidence of positive sera when enzyme-linked immunosorbent assay (ELISA) was employed instead of hemagglutination inhibition (HI) tests. Equivalent sensitivity as in the ELISA was obtained when the same sera were investigated by indirect immunofluorescence (IF) tests. The virus purification techniques described resulted in highly suitable antigens for all indirect ELISA established. Since IIF requires no purified antigens, this test is recommended as an alternative to ELISA as well as to HI and complement fixation (CF) tests for laboratories lacking the necessary equipment for high speed centrifugation. A high incidence of false positive HI reactions was found particularly in Reo 3 routine serology. An updated survey of seromonitoring showed that European murine colonies appeared to be infected far less with Reo 3 if ELISA or IIF tests were employed. During 1982-1984, only 13% of the mouse colonies screened possessed Reo 3 positive sera whereas no natural Reo 3 infection was found in rat colonies. Mouse hepatitis virus (MHV) and the coronaviruses of rats exhibited the highest incidence in murine colonies. A total of 60% of mouse and 41% of rat colonies were found to be infected by these viruses. In comparison with earlier serological surveys, the relative incidence of other murine infections was similar. Antibodies against Bacillus piliformis (Tyzzer's disease) were detected by the IIF test in 41% of the rat colonies screened.