共查询到20条相似文献,搜索用时 31 毫秒
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Elizabeth Throckmorton Travis Brenden Amber K. Peters Tammy J. Newcomb Gary E. Whelan Mohamed Faisal 《Journal of aquatic animal health》2013,25(1):31-42
AbstractViral hemorrhagic septicemia virus genotype IVb (VHSV IVb) has caused major, sporadic fish die-offs in the Laurentian Great Lakes region of North America since 2005. Presently, factors affecting VHSV IVb persistence in enzootic systems are not well understood. Even with annual surveillance, the virus can go undetected for several years after an outbreak before again re-emerging, which suggests that the virus is maintained in the system either below detectable levels or in untested reservoirs. The aim of this study was to identify potential reservoirs of VHSV IVb in Budd Lake, Michigan; VHSV IVb was first detected in Budd Lake in 2007 but remained undetected until 2011. Additionally, we explored the susceptibility of naive fish introduced into a water body enzootic for VHSV IVb by stocking age-0 Largemouth Bass Micropterus salmoides at varying densities into enclosures in the lake. The virus was not detected among samples of the fishes Notropis spp. and Lepomis spp., cylindrical papershell mussels Anodontoides ferussacianus, leeches (subclass Hirudinea), sediment, or water. However, the virus was successfully isolated from amphipods (family Hyalellidae) and Largemouth Bass held in the enclosures. Our finding of VHSV IVb in Hyalellidae amphipods in combination with other research that has detected the virus in Diporeia spp., a large benthic amphipod important as a food resource to Great Lake fishes, suggests that benthic macroinvertebrates are a reservoir for VHSV IVb in infected systems. If there are environmental reservoirs for VHSV IVb in infected systems, they are likely unevenly distributed. Findings of this study add to our understanding of the seemingly complex ecology of this deadly and economically detrimental virus.Received February 22, 2016; accepted October 16, 2016 Published online February 6, 2017 相似文献
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DNA Vaccination Partially Protects Muskellunge against Viral Hemorrhagic Septicemia Virus (VHSV-IVb)
Elena V. Millard Ashley M. Bourke Scott E. LaPatra Travis O. Brenden Scott D. Fitzgerald 《Journal of aquatic animal health》2013,25(1):50-56
AbstractA DNA vaccine containing the glycoprotein (G) gene of the North American viral hemorrhagic septicemia virus (VHSV) genotype IVb was developed to evaluate the immune response of fish following vaccination and evaluate its efficacy in protecting a susceptible species, the Muskellunge Esox masquinongy, against VHSV-IVb challenge. Seven weeks (539 degree-days) following vaccination with 10 μg of either pVHSivb-G or a control plasmid, Muskellunge were challenged by immersion with 105 plaque-forming units (pfu)/mL of VHSV-IVb. Fish vaccinated with pVHSivb-G had a relative percent survival (RPS) of 45%. Vaccinated fish also had significantly lower mean viral titers in tissues (4.2 × 102 pfu/g) and viral prevalence (4%) than fish receiving the plasmid control vaccine (3.3 × 105 pfu/g; 82%). Neutralizing antibodies were detected 28 d (308 degree-days) postchallenge (11 weeks postvaccination) in 100% of Muskellunge vaccinated with pVHSivb-G compared with only 12% of plasmid-control-vaccinated Muskellunge, suggesting robust induction of a secondary, adaptive immune response. In addition, pVHSivb-G–vaccinated Rainbow Trout Oncorhynchus mykiss challenged 7 d (100 degree-days) postvaccination with the heterologous novirhabdovirus, infectious hematopoietic necrosis virus (IHNV), experienced an RPS of 61%, compared to control fish, suggesting induction of an early and transient nonspecific antiviral immune response. This study provides an important starting point for VHSV-IVb vaccine development and useful information about the antiviral immune response elicited by DNA vaccination in a nondomesticated fish species.Received May 1, 2016; accepted September 1, 2016 相似文献
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《Journal of aquatic animal health》2013,25(4):231-239
Abstract The ability of two rhabdoviruses, infectious hematopoietic necrosis virus (IHNV) and viral hemorrhagic septicemia virus (VHSV), to infect fish skin was investigated by in vitro infection of excised tissues. Virus replication was determined by plaque assay of homogenized tissue extracts, and the virus antigen was detected by immunohistology of tissue sections. Gill, fin, and ventral abdominal skin tissues of rainbow trout Oncorhynchus mykiss that had been infected in vitro with a virulent strain of IHNV (193–110) produced substantial increases in virus titer within 24 h. Titers continued to increase up until day 3 of incubation; by this time, virus had increased 1,000-fold or more. This increase in IHNV titer occurred in epidermal tissues of fingerlings and of older fish. In another experiment, IHNV replicated in excised rainbow trout tissues whether the fish had been subject to prior infection with a virulent strain of IHNV (Western Regional Aquaculture Consortium isolate) or whether the fish had been infected previously with an attenuated strain of the virus (Nan Scott Lake, with 100 passes in culture). A virulent strain of VHSV (23/75) replicated effectively in excised gill tissues and epidermal tissues of rainbow trout and chinook salmon O. tshawytscha; however, the avirulent North American strain of VHSV (Makah) replicated poorly or not at all. 相似文献
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《Journal of aquatic animal health》2013,25(2):114-117
Abstract In November 1989, infectious hematopoietic necrosis virus (IHNV) was found for the first time in the Soleduck River at the Washington Department of Fisheries Soleduck Hatchery. The virus was isolated from ovarian fluid and kidney-spleen tissue pools from chinook salmon Oncorhynchus tshawytscha and ovarian fluid pools from coho salmon O. kisutch returning to the Soleduck Hatchery. The virus was identified as IHNV by neutralization assays. In December 1989, the virus causing viral hemorrhagic septicemia (VHSV) was found in ovarian fluid and milt pools from wild coho salmon obtained from the Soleduck and Bogachiel rivers and held at the Soleduck Hatchery. The virus was identified as VHSV by neutralization and immunoblot assays. These findings and their implications for routine broodstock sampling are discussed. 相似文献
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Lucas M. Hart Ashley MacKenzie Maureen K. Purcell Rachel L. Powers 《Journal of aquatic animal health》2013,25(2):74-82
AbstractMethods for a plaque neutralization test (PNT) were optimized for the detection and quantification of viral hemorrhagic septicemia virus (VHSV) neutralizing activity in the plasma of Pacific Herring Clupea pallasii. The PNT was complement dependent, as neutralizing activity was attenuated by heat inactivation; further, neutralizing activity was mostly restored by the addition of exogenous complement from specific-pathogen-free Pacific Herring. Optimal methods included the overnight incubation of VHSV aliquots in serial dilutions (starting at 1:16) of whole test plasma containing endogenous complement. The resulting viral titers were then enumerated using a viral plaque assay in 96-well microplates. Serum neutralizing activity was virus-specific as plasma from viral hemorrhagic septicemia (VHS) survivors demonstrated only negligible reactivity to infectious hematopoietic necrosis virus, a closely related rhabdovirus. Among Pacific Herring that survived VHSV exposure, neutralizing activity was detected in the plasma as early as 37 d postexposure and peaked at approximately 64 d postexposure. The onset of neutralizing activity was slightly delayed in fish reared at 7.4°C relative to those in warmer temperatures (9.9°C and 13.1°C); however, neutralizing activity persisted for at least 345 d postexposure in all temperature treatments. It is anticipated that this novel ability to assess VHSV neutralizing activity in Pacific Herring will enable retrospective comparisons between prior VHS infections and year-class recruitment failures. Additionally, the optimized PNT could be employed as a forecasting tool capable of identifying the potential for future VHS epizootics in wild Pacific Herring populations.Received November 7, 2016; accepted January 14, 2017 Published online April 4, 2017 相似文献
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P. K. Hershberger J. L. Gregg C. A. Grady S. E. LaPatra J. R. Winton 《Journal of aquatic animal health》2013,25(3):140-147
Abstract The plasma of Pacific herring Clupea pallasii that survived laboratory-induced viral hemorrhagic septicemia (VHS) epizootics contained humoral substances that, when injected into naïve animals, conferred passive immunity against the disease. Among groups exposed to viral hemorrhagic septicemia virus (VHSV), injection of donor plasma from VHS survivors resulted in significantly greater survival (50%) and significantly lower tissue titers (1.5 × 105 plaque-forming units [PFU]/g) than the injection of plasma from VHSV-naïve donors (6% survival; 3.7 × 106 PFU/g). Additionally, the magnitude of the protective immune response increased during the postexposure period; plasma that was collected from survivors at 123 d postexposure (931 degree-days) provided greater protection than plasma collected from survivors at 60 d postexposure (409 degree-days). These results provide proof of concept that the VHSV exposure history of Pacific herring populations can be determined post hoc; furthermore, the results can be used as the foundation for developing additional high-throughput diagnostic techniques that may be effective at quantifying herd immunity and forecasting the potential for future VHS epizootics in populations of wild Pacific herring. Received October 20, 2010; accepted April 7, 2011 相似文献
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J. Beaulaurier N. Bickford J. L. Gregg C. A. Grady A. L. Gannam J. R. Winton 《Journal of aquatic animal health》2013,25(1):43-48
Abstract Groups of specific-pathogen-free Pacific herring Clupea pallasii were highly susceptible to infection by viral hemorrhagic septicemia virus (VHSV); however, the level of mortality was influenced by diet during the 40–71 d before, during, and after the first exposure to the virus. Cumulative mortality was highest among the herring maintained on an experimental soy-based pellet, intermediate among those maintained on a commercially available fish-meal-based pellet, and lowest among those maintained on a second commercially available fish-meal-based pellet containing β-glucans. Additionally, the herring maintained on the experimental soy-based feed demonstrated less growth than those on the commercially available feeds. The results indicate the importance of standardizing diet during empirical determinations of disease susceptibility and provide insights into the risk factors affecting VHS susceptibility in wild populations. Received August 26, 2011; accepted November 4, 2011 相似文献
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《Journal of aquatic animal health》2013,25(1):10-16
Abstract Rabbit antisera against viral hemorrhagic septicemia virus (VHSV) produced by two immunization procedures were compared for neutralization and immunochemical properties against homologous and heterologous strains. The VHSV isolate used as the immunogen was a member of a serogroup not neutralized by previously available antisera. The results from this study suggested that frequent intravenous (IV) injections of rabbits with viral antigens were superior to adjuvant-mediated, combined subcutaneous and intraperitoneal (SC/IP) injections for the production of neutralizing antisera. All IV injected rabbits produced high neutralization titers against the homologous VHSV isolate but not against an isolate from a different serogroup. The SC/IP injected rabbits had no significant neutralization titers against either the homologous VHSV strain or two isolates of a heterologous VHSV strain. Sera from all injected rabbits reacted in indirect immunofluorescence (IF) assays with either strain; however, the SC/IP injected rabbits produced higher titers against the heterologous VHSV strain by ELISA (enzyme-linked immunosorbent assay). By Western blotting, neutralizing antisera primarily stained the viral glycoprotein (G) whereas the nonneutralizing sera stained all the viral structural proteins equally well. Our results demonstrate that immunization procedures to produce antisera against VHSV in rabbits determine whether the resultant antibodies will have primarily neutralizing or binding capabilities. 相似文献
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Leeches have been reported to harbor several important fish pathogens, including spring viremia of carp virus, infectious hematopoietic necrosis virus (IHNV), and viral hemorrhagic septicemia virus (VHSV), and also may contain blood protozoa. In the present study, leeches were collected from water bodies located in Kurdistan province, Iran. The specimens were tested for IHNV, VHSV, and infectious pancreatic necrosis virus (IPNV) using the PCR method. The results showed that two different species of leeches, Hemiclepsis marginata and Hirudo medicinalis, were infected by IPNV among the seven species studied. The infected leeches were found in areas that were polluted with untreated sewage coming from upstream fish farms culturing Rainbow Trout Oncorhynchus mykiss. In addition, the fish at fish farms in the vicinity had been infected with IPNV 9 months previously. Our results showed that the virus causing infectious pancreatic necrosis is present in the leeches H. marginata and H. medicinalis, suggesting that leeches are a potential source of IPNV in fish farms.
Received October 14, 2015; accepted June 1, 2016 Published online September 29, 2016 相似文献
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《Journal of aquatic animal health》2013,25(3):176-180
Abstract An immunodot assay has been developed with two monoclonal antibodies that recognize conserved epitopes on the nucleoproteins of viral hemorrhagic septicemia virus (VHSV) and infectious hematopoietic necrosis virus (IHNV). Monoclonal antibody 1NDW14D, which recognizes a conserved epitope on the nucleoprotein of IHNV, recognized 80 of 81 IHNV isolates spotted on nitrocellulose, but none of 8 VHSV isolates. Monoclonal antibody IP5B11, which recognizes a conserved epitope on the nucleoprotein of VHSV, reacted with all eight isolates of VHSV, but with none of the IHNV isolates. Neither monoclonal antibody bound to other rhabdoviruses spotted on nitrocellulose: spring viremia of carp virus (SVCV), pike fry rhabdovirus (PFRV), a new Danish eicosid rhabdovirus unrelated to PFRV, and rhabdovirus anguilla (EVX). 相似文献
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《Journal of aquatic animal health》2013,25(3):167-180
Abstract Viral hemorrhagic septicemia (VHS) in rainbow trout Oncorhynchus mykiss is caused by VHS virus (VHSV), which belongs to the rhabdovirus family. Among the different strategies for immunizing fish with a recombinant vaccine, genetic immunization has recently proven to be highly effective. To further investigate the potential for protecting fish against VHS by DNA vaccination, experiments were conducted to determine the amount of plasmid DNA needed for induction of protective immunity. The time to onset of immunity and the duration of protection following administration of a protective vaccine dose were also analyzed. The dose–response analysis revealed that significant protection of rainbow trout fingerlings was obtained following intramuscular injection of only 0.01 μg of plasmid DNA encoding the VHSV glycoprotein gene. In addition, higher doses of DNA induced immunity to a virus isolate serologically different from the isolate used for vaccine development. Following administration of 1 μg of a DNA vaccine, significant protection against VHS was observed in the fish as early as 8 d postvaccination. At 168 d postvaccination, the fish had increased in size by a factor of 10 and protection against a lethal dose of VHSV was still evident. The results confirm the great potential for DNA vaccination in inducing efficient immunoprophylaxis against viral diseases in aquacultured fish. 相似文献
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《Journal of aquatic animal health》2013,25(2):126-134
Abstract Following the detection of infectious hematopoietic necrosis virus (IHNV) in France in April 1987, a serological survey was conducted of the rainbow trout Oncorhynchus mykiss (formerly Salmo gairdneri) from an infected cultured stock previously known to be contaminated with viral hemorrhagic septicemia virus (VHSV) for 3 years. The work lasted from April to December 1987, at which time all the remaining fish were slaughtered. Serum samples were assayed by a plaque-reduction test and a simplified neutralization test that is more suitable for processing large numbers of serum samples. Such investigations revealed that IHNV neutralization by trout antibodies depended on trout complement, as did neutralization of VHSV. Incubation for 16 h at 4°C increased the sensitivity of the test compared to incubation for 1 h at 20°C. During the course of clinical IHN from April to June, young fish did not display any neutralizing activity, but in September, 29 of 50 of them exhibited significant anti-IHN neutralizing antibody titers ranging from 21 to over 160, and 18 of 46 of these same fingerlings did so in December. Similarly, fish that had undergone VHS infection in August began to develop anti-VHSV antibodies in December (5 of 50), demonstrating that one fish can harbor neutralizing antibodies to both IHNV and VHSV, and that these antibodies had required 14 weeks to appear under fish culture conditions at 10°C. As could be expected from seroneutralization tests, neutralizing antibodies to IHNV did not result in protection against VHS. Sera from 13 of 20 adult fish sampled in mid-June revealed neutralizing antibodies to IHNV, suggesting that they harbored the virus prior to the clinical infection that affected their progeny. Only two of the fish showed low anti-VHSV antibody titers. Similarly, neutralizing antibodies to IHNV were detected in 53 of 73 other adult fish sampled in late October, 10 months after they had spawned and 7 months after mortality had occurred among their progeny. Given the prevalence, level, and persistence of neutralizing antibody titers, the seroneutralization test would be worth investigating more thoroughly to define the conditions that could make it a reliable tool for checking the virus status of trout carriers. 相似文献
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《Journal of aquatic animal health》2013,25(4):279-290
Abstract Specific-pathogen-free Pacific herring Clupea pallasi were reared in the laboratory from eggs and then challenged at 5, 9, and 13 months of age by waterborne exposure to low (101.5–2.5 plaque-forming units [PFU] per milliliter), medium (103.5–4.5 PFU/mL), or high (105.5–6.5 PFU/mL) levels of a North American isolate of viral hemorrhagic septicemia virus (VHSV). The fish were extremely susceptible to the virus, showing clinical disease, mortality approaching 100%, and only a limited increase in resistance with age. Mortality began 4–6 d after exposure and peaked at approximately day 7 in fish exposed to high levels of virus. Whereas the mean time to death showed a significant dose response (P < 0.001), the percent mortality and virus titers in dead fish were generally high in all groups regardless of initial challenge dose. External signs of disease were usually limited to 1–2-mm hemorrhagic areas on the lower jaw and isthmus and around the eye, but 2 of 130 infected fish exhibited extensive cutaneous hemorrhaging. Histopathologic examination of tissues from moribund fish sampled at 2–8 d after exposure revealed multifocal coagulative necrosis of hepatocytes, diffuse necrosis of interstitial hematopoietic tissues in the kidney, diffuse necrosis of the spleen, epidermis, and subcutis, and occasional necrosis of pancreatic acinar cells. Virus titers in tissues of experimentally infected herring were first detected 48 h after exposure and peaked 6-8 d after exposure at 107.7 PFU/g. Fish began shedding virus at 48 h after exposure with titers in the flow-through aquaria reaching 102.5 PFU/mL at 4–5 d after exposure, just before peak mortality. When the water flow was turned off for 3 h, titers in the water rose to 103.5 PFU/mL, and the amount of virus shed by infected fish (on average, greater than 106.5 PFU/h per fish) appeared sufficient to sustain a natural epizootic among schooling herring. Taken together, these data suggest that VHSV could be a significant limiting factor for populations of Pacific herring. 相似文献