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The level of infection by infectious pancreatic necrosis virus (IPNV) of kidney macrophages from 12 asymptomatic carrier Atlantic salmon post-smolts was studied. Kidney leucocytes were fractionated on 34/51% Percoll gradients, allowed to adhere to plastic wells overnight, washed to remove non-adherent cells and cultured for up to 7 days with or without renewal of medium on day 3. On day 1, supernatants were harvested, macrophages were counted, lysed and IPNV in the supernatants and lysates was titred in chinook salmon embryo (CHSE-214) cells. The multiplicity of infection ranged between 1:2.2 and 1:7.4 (virus:macrophages). On day 3, the titres of IPNV in macrophage lysates decreased and in wells where the medium was renewed on day 3, IPNV was no longer detectable on day 7. In the supernatants, one fish was positive for IPNV on day 1, four fish on day 3 but none were detectably positive on day 7. In parallel wells in which the medium was not renewed, on day 7 IPNV was detected in macrophage lysates of three fish and the supernatants were also IPNV positive in two of these fish. This suggests that virus might be shed from infected macrophages and then reinfect other macrophages. When macrophages were serially diluted in wells and cultured for 24 h, IPNV could be cultured from macrophage lysates of wells containing between two and 70 macrophages. These results indicate that a very high proportion of the adherent kidney macrophages must be infected with very few non-replicating virions. 相似文献
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Juvenile Atlantic cod (10 g) were infected with infectious pancreatic necrosis virus (IPNV) by intraperitoneal injection and cohabitation. Fish showed no signs of disease but IPNV could be re-isolated from kidney tissue for up to 12 weeks. On weeks 2, 5, 8, 10, 11 and 12 following infection, kidney leucocytes were fractionated on Percoll gradients, and cells separated into plastic adherent and non-adherent cell populations after overnight incubation. IPNV was detectable in lysates of both cell populations and in supernatants by culture in CHSE-214 cells. Wells containing 10(5)-10(6) macrophages had an IPNV TCID(50) of about 10(3)/well and in serially diluted macrophages the minimum number of cells required to detect virus ranged from 10(1) to 10(4). These data indicate that about one in 10(4) macrophages were infected and the mean number of virus/infected cell was about 10. Replication of IPNV in the macrophages was low as the titre of the virus in macrophage lysates did not increase between days 1 and 3 of culturing the macrophages, but virus was released into the supernatant over this time. 相似文献
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Abstract. Blood and head kidney (HK) leucocytes were isolated from Atlantic salmon, Salmo salar L., carrying infectious pancreatic necrosis virus (IPNV), and the cells were separated into adherent and non-adherent populations. Significant increases in both intra- and extracellular IPNV titres, and in the number of IPNV-positive fluorescent cells were detected in adherent HK leucocytes during 7 days in culture, and demonstrated that IPNV multiplied in these cells. Infectious virus was not detected in culture medium collected from blood leucoeytes, and only occasionally, in very low titres, from non-adherent HK leucocytes. No IPNV-positive fluorescent cells were detected in these cell populations. IPNV infection of adherent leucocytes isolated from non-carrier fish indicated that adherent blood leucocytes (mainly monocytes) could become productively infected in vitro , but to a lesser degree than adherent HK leucocytes (mainly macrophages). The present results suggest a major role for adherent HK leucocytes in maintaining the IPNV carder state in Atlantic salmon. 相似文献
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In populations of Atlantic salmon in sea water, infectious pancreatic necrosis virus (IPNV) could be detected by standard virological culture methods in sonicated kidney homogenates and in mucus samples (gill, skin and rectum) from 14 and nine of 25 fish, respectively, but all fish were positive by virus culture from lysates of kidney macrophages and adherent blood leucocytes. In fish which tested negative for IPNV by the standard method of detection, the virus could be detected using adherent blood leucocytes isolated on a Percoll gradient from as little as 10 microL of blood. The blood sample could be stored for at least 3 days in a heparinized tube on ice before preparing the plastic adherent leucocytes. Furthermore, the latter could be prepared without prior fractionation on Percoll simply by incubating whole blood (33 microL) in cell culture medium (66 microL) in 96-well plates overnight and washing away the non-adherent cells before lysing the adherent cells and inoculation of the lysate onto CHSE-214 cells. This highly sensitive method for detecting IPNV-carriers is therefore very suitable for non-destructive sampling of fish in the field. 相似文献
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The possible importance of the O-linked glycosylation in virion stability and infectivity of infectious pancreatic necrosis virus (IPNV) was analysed. Enzymatic treatment with O-glycosidase of radiolabelled virions under different ionic conditions, to allow for possible alternative exposure of glycosidic enzyme cleavage sites, did not alter the specific infectivity of virions re-isolated after rate-zonal centrifugation in glycerol gradients. As an alternative method to assess the significance of carbohydrates in IPNV integrity, periodate oxidation in the presence of an aldehyde quencher was chosen. Following re-isolation of viruses, a 3-5 (10)log-unit reduction in specific infectivity was revealed and, at higher concentrations, a total disruption or virion aggregation was observed. The loss of infectivity of intact virions was not because of a lack of attachment to cells. Additionally, re-evaluation of reading values from UV-spectra of purified IPNV yielded a specific infectivity of 3 × 10(11) TCID(50)-units mg(-1) of protein and a ratio of 40 virions per TCID(50)-unit in the CHSE-214 cell system. 相似文献
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A total of 31 antibody-secreting hybridoma cells against the yellowtail ascites virus (YAV) were established. These monoclonal antibodies (MAbs) reacted with the cytoplasm of YAV-infected CHSE-214 cells, but not with uninfected CHSE-214 cells in an immunofluorescence test. Using these MAbs, two classes of polypeptides (VP2 and VP3) were characterized by immunoprecipitation followed by SDS-PAGE, although one MAb did not react with either polypeptide. Fifteen out of the 17 MAbs that were reactive with VP2 polypeptides neutralized virus infectivity, but all 13 MAbs that were reactive with VP3 did not neutralize infectivity. In the immunofluorescence test, 29 out of the 31 MAbs obtained showed the same reaction pattern to 12 YAV isolates from yellowtail, Seriola quinqueradiata, goldstriped amberjack, Seriola aureovittata, and threeline grunt, Parapristipoma trilineatum, from different geographical regions. The remaining two MAbs showed slightly different reaction patterns to the YAV isolates. The reaction patterns of the MAbs to the VR-299, Sp and Ab strains of IPNV were also investigated. Fourteen MAbs reacted to all three IPNV strains. The other 17 MAbs showed a negative reaction with at least one strain. 相似文献
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Abstract. The exact cellular site of replication of infectious pancreatic necrosis virus (IPNV) in carrier fish is unknown. In order to determine if IPNV replicates in trout leucocytes, we purified leucocytes from normal (non-carrier) trout and separated the cells into an adherent and a non-adherent population. IPNV replicated in less than 0-01 % of the adherent leucocytes with a yield of about 400 p.f.u./cell. IPNV also became associated with less than 0.07% of the non-adherent leucocytes; either IPNV did not replicate in these cells or the yield was, at best, only a few p.f.u./cell. Trout persistently infected with IPNV (carrier fish) were tested for the presence of IPNV in leucocytes by co-cultivating with a sensitive fish cell line; this same population of trout was also tested for IPNV by organ sampling using standard methods. Ninety-eight per cent of the trout were positive for IPNV by organ sampling, but only 75 % yielded IPNV from leucocytes. Thus a blood sample from a living fish can be used to detect the presence of IPNV. 相似文献
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Atlantic salmon S1/2 pre-smolts from the VESO Vikan hatchery were assigned to study groups, i.p. immunized with commercially available, multivalent oil-adjuvanted vaccines with (Norvax Compact 6 - NC-6) or without (Norvax Compact 4 - NC-4) recombinant infectious pancreatic necrosis virus (IPNV) antigen. A control group received saline solution. When ready for sea, the fish were transported to the VESO Vikan experimental laboratory, where two identical tanks were stocked with 75 fish per group before being transferred to 10 degrees C sea water and exposed by bath to first passage IPNV grown in CHSE-214 cells. The third tank containing 40 fish from each group was challenged by the introduction of 116 fish that had received an i.p injection of IPNV-challenge material. The remaining vaccinated fish were transported to the VESO Vikan marine field trial site and placed in two identical pens, each containing approximately 53 000 fish from the NC-6 group and 9000 fish from the NC-4 group. In the experimental bath challenge trial, the cumulative mortality was 75% and 78% in the control groups, and the relative percentage survival (RPS) of the NC-6-immunized fish vs. the reference vaccine groups was 60% and 82%, respectively. In the cohabitation challenge, the control mortality reached 74% and the IPNV-specific vaccine RPS was 72%. In both models, the reference vaccine lacking IPNV antigen gave a moderate but statistically significant non-specific protection. In the field, a natural outbreak of infectious pancreatic necrosis (IPN) occurred after 7 weeks lasting for approximately 3.5 months before problems due to winter ulcers became dominating. During this outbreak, mortality in the NC-4 groups were 33.5% and 31.6%, respectively, whereas mortality in the NC-6 groups were 6.9% and 5.3%, respectively, amounting to 81% IPNV-specific protection. In conclusion, the IPN protection estimates obtained by experimental challenges were consistent between tanks, and were confirmed by the field results. 相似文献
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Rhbdd3(Rhomboid domain-containing protein 3)蛋白在哺乳动物天然免疫中发挥了重要作用,但水生动物中rhbdd3基因的确定序列及Rhbdd3蛋白的功能均尚未见报道。为研究鲤(Cyprinus carpio)的Rhbdd3蛋白在鱼类细胞中的功能,探讨其过表达对鱼类病毒感染的影响,本研究通过PCR扩增得到了鲤rhbdd3基因的编码序列,并将其克隆至pCI-neo载体上,构建了真核表达质粒pCI-rhbdd3。pCI-rhbdd3转染鲤上皮瘤细胞EPC(epithelioma papulosum cyprinid)和鲑囊胚细胞CHSE-214(chinook salmon embryo)后利用制备的特异性抗体进行Western blot,检测Rhbdd3蛋白的表达情况,并利用CCK-8试剂检测其过表达对细胞增殖的影响。转染后分别进行鲤春病毒血症病毒(SVCV)和传染性胰腺坏死病毒(IPNV)的感染实验,并利用间接免疫荧光、Western blot和RT-qPCR方法检测Rhbdd3过表达对SVCV和IPNV增殖的影响。结果显示,pCI-rhbdd3转染后Rhbdd3蛋白在EPC和CHSE-214细胞中得到了过表达,且Rhbdd3蛋白的过表达能显著抑制SVCV和IPNV的复制,但不影响两种细胞的正常活性。本研究为鱼类广谱抗病毒药物的开发提供了新的实验依据,也为鱼类抗病毒新品种的培育奠定了重要基础。 相似文献
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Abstract. In 1969, a new kind of epizootic occurred among eels in Japan and virological investigation was initiated. A new virus designated eel virus european (EVE) was isolated and biological, cytological, serological tests and infectivity trials were carried out. In its CPE on RTG-2 cells and additionally in its biological properties and particle size, EVE was found to be similar to infectious pancreatic necrosis virus (IPNV). Serologically, EVE was similar to the ď Honnincthun, France, strain of IPNV. However, infectivity trials showed that EVE and IPNV differed; EVE killed Japanese eels Anguilla japonica but not rainbow trout fry Salmo gairdneri , while IPN virus killed rainbow trout fry but not eels. We consider EVE to be the primary agent causing the new epizootic and propose the name viral kidney disease for the resulting clinical condition. 相似文献
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Abstract. The isolation and characterization of infectious pancreatic necrosis (IPN) virus from a goldfish, discus fish and bream is described. The fish from which the isolates were recovered showed no pathological signs of IPN. All three virus isolates were neutralized by antiserum to IPN, strain Ab, but not by antiserum to the Sp or VR-299 strains. They were morphologically identical to IPN virus in negative stain electron microscopy, grew in the cytoplasm of BF-2 cells, as shown by immuno-fluorescence and, like IPNV, were stable to heating, lipid solvents and acid pH. 相似文献
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Abstract. A non-pathogenic cell culture adapted variant was obtained from a normally pathogenic strain of IPN virus (Sp type) after several passages in RTG-2 cells. This cell culture modified (CCA) strain was compared with the original wild (W) strain in various tests. Cross neutralization tests showed no obvious antigenic difference between the two. However the CCA strain was neutralized by a 1:5000 dilution of normal trout serum whereas the W strain was not. In RTG-2 cells, CCA strain gave both large and small plaques, whereas the W strain gave only small ones. Both virus strains were heat sensitive and labile to cyclic freezing and thawing. The CCA virus was more stable in storage at 4°C under different pH conditions and its growth in RTG-2 cells was more rapid. The rt (supraoptimal temperature at which viral yield is depressed by 90%) appeared to be 19-20°C for the CCA strain and 18-19°C for the W strain. Pre-treatment of RTG-2 cells with ultraviolet inactivated CCA virus could inhibit growth of W virus, but had no effect on replication of homologous virus. 相似文献
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Abstract. An indirect fluorescent antibody (IFA) test was developed to detect viral antigen in tissue sections prepared from rainbow trout experimentally inoculated with infectious pancreatic necrosis virus (IPNV). Specific fluorescence was present in the pancreatic acinar tissue and occurred as brilliant fluorescence throughout the mesentery surrounding the pyloric caeca and intestines. In addition, multiple foci of fluorescent cells were seen occasionally in the kidneys and liver of infected fry. Fluorescence was not observed in tissues other than the pancreas, kidneys, and liver. The IFA test was found to be quite specific and offers a rapid means of diagnosing IPN during acute outbreaks. 相似文献
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An investigation of virus-specific protein maturation in infectious pancreatic necrosis virus (IPNV) infected Chinook salmon embryo cells (CHSE-214) was undertaken. The precursor protein (pVP2-1) of the major mature capsid protein (VP2) was processed sequentially from pVP2-1 to pVP2-2 and VP2. Experiments using serine proteinase inhibitors showed that the maturation of the VP2 was blocked in the pVP2-1 post-translational cleavage steps. A protinin, a potent proteinase inhibitor, at 800 μg ml(-1) blocked pVP2-2 to VP2 and the cleavage of VP4 (28 kDa) to VP4-1 (25 kDa). Therefore, our data showed that the maturation of the capsid protein (VP2) and cleavage of VP4 (NS proteinase) can be blocked by serine proteinase inhibitors. 相似文献
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Abstract. The inactivation rates in the aquatic environment of two fish pathogens, infectious pancieatic necrosis virus (IPNV) and infectious haematopoietic necrosis virus (IHNV), were compared with that of poliovirus type 1 as a representative of the human enterovirus group. The survival studies were performed using untreated fresh, estuarine and sea water samples held at 15 and 20°C. The results indicated that the salmonid viruses survived longer than poliovirus in the saline waters, whereas in fresh water poliovirus was the most stable of the three viruses. IPN virus proved to be most stable in estuarine water at 15°C, whereas the survival of IHN virus was favoured in fresh water. We also observed that at 20°C the inactivation rate for each virus was independent of salt concentration in estuarine and sea water. Although temperature exhibited a marked effect on virus stability in fresh water, the salmonid viruses presented similar survival patterns at both temperatures in sea water. In general the period of greatest viral inactivation correlated with higher bacterial numbers in the waters. 相似文献
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Abstract. Five fish cell lines (CHSE-214, STE-137, RTG-2, EPC and FHM) were compared for sensitivity to infectious haematopoietic necrosis virus (IHNV) from samples obtained from naturally-infected fish. Infectious ovarian fluids were obtained from steelhead trout, Salmo gairdneri Richardson, at the Round Butte Hatchery in central Oregon and tissue homogenates were prepared from chinook salmon, Oncorhynchus tshawytscha (Walbaum), alevins during an IHN virus epizootic at the Elk River Hatchery in coastal Oregon. The only lines to show characteristic viral cytopathology by plaque or end-point dilution assay for the steelhead trout virus isolate were the EPC and FHM cell lines. The chinook salmon isolates produced CPE in CHSE-214, STE-137, FHM and EPC cells. The titre of the salmon virus isolate was 10-50-fold higher on FHM and EPC cells by both assay methods. Neither by end-point nor plaque assay did the Round Butte or Elk River isolates produce CPE on RTG-2 cells. With both virus isolants both cell lines showed that greater sensitivity was obtained with plaque assay than with end-point titration. Pre-treatment of the cells with the polycation, polybrene, did not increase the virus titre in either assay. However, a transient enhancement in virus titre was observed in polybrene-treated STE-137 and CHSE-214 cells. 相似文献
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Infectious pancreatic necrosis virus (IPNV) has been isolated from mussels, sediment and surface water in the vicinity of clinically infected salmon farms, at shore bases supplying the farms and for several hundred metres distance from farms in the direction of current flow. There was evidence of decreasing prevalence of IPNV in mussels from Shetland once IPN outbreaks subsided, indicating they are an unlikely source of re-infection on farms. There was little evidence of persistence in the environment, although conclusions were complicated by the presence of IPNV on neighbouring farms 1 year after the outbreak. 相似文献