Infectious Hematopoietic Necrosis Virus (IHNV) in Coho Salmon

Abstract

Infectious hematopoietic necrosis virus (IHNV) causes important losses of chinook salmon Oncorhynchus tshawytscha, sockeye salmon Oncorhynchus nerka, and rainbow trout and steelhead Oncorhynchus mykiss on the west coast of North America. Although coho salmon Oncorhynchus kisutch are considered resistant to IHNV infection, the virus was detected in numerous adult coho salmon returning to Trinity River Hatchery, California, in 1985 and 1986. The virus was isolated from internal organs and ovarian fluids of these fish. Antigenic and structural polypeptides of the viruses were identical in adult coho and chinook salmon collected at the same location. Chinook salmon and rainbow trout alevins exhibited high degrees of susceptibility to IHNV obtained from adult coho and chinook salmon. Coho salmon alevins were resistant to both virus isolants.     

Susceptibility of Four New Salmonid Cell Lines to Infectious Hematopoietic Necrosis Virus

Abstract

Four salmonid cell lines, CoE 45, CoE 115, CoE 345, and RBTE 45, were established from embryonic tissues of coho salmon Oncorhynchus kisutch and rainbow trout O. mykiss. In vitro challenges of the new lines were conducted with four isolates of infectious hematopoietic necrosis virus (IHNV). Two of the IHNV isolates used for the challenges were derived from infected tissues of rainbow trout, one was derived from chinook salmon O. tshawytscha, and the other isolate was derived from coho salmon. To standardize the virus challenges of the new cell lines, several established piscine cell lines (EPC, CHSE 214, CSE-119, RTH-149, RTG, and RTS) were challenged in the same way as the new lines. Each of the lines was challenged with virus at a single low multiplicity of infection (0.01 plaque-forming unit per cell). Virus yields were quantitated by plaque assay on epithelioma papulosum cyprini (EPC) cells on day 3. Results of the challenge experiments revealed different levels of production of virus for each isolate on the various cell lines. Overall, the new cell line derived from rainbow trout, RBTE 45, was quite susceptible to all viruses tested. The three cell lines newly derived from coho salmon embryo were not as resistant to the replication of IHNV as was the established coho salmon cell line, CSE-119. An established cell line, EPC, derived from an epithelial tumor of common carp Cyprinus carpio, remained the most susceptible to all four IHNV isolates tested.     

In Vitro Infection of Salmonid Epidermal Tissues by Infectious Hematopoietic Necrosis Virus and Viral Hemorrhagic Septicemia Virus

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.     

Early Life Stage Survival and Susceptibility of Brook Trout,Coho Salmon,Rainbow Trout,and Their Reciprocal Hybrids to Infectious Hematopoietic Necrosis Virus

Abstract

Triploid (heat-shocked) and diploid groups of rainbow trout Oncorhynchus mykiss, brook trout Salvelinus fontinalis, coho salmon Oncorhynchus kisutch, and reciprocal hybrids were produced, monitored for early life stage survival, and evaluated for susceptibility to infectious hematopoietic necrosis virus (IHNV). The female rainbow trout × male brook trout triploid hybrids had significantly greater (P < 0.01) survival than the diploid hybrids of this cross. The heat-shocked hybrid group of the female rainbow trout × male coho salmon also exhibited significantly greater survival to the eyed egg stage of development than the untreated group of this hybrid. Studies of the susceptibility of treatment groups to a 1990 IHNV isolate from the Hagerman Valley were conducted by using a standardized immersion exposure procedure at one or two different mean body weights. The diploid brook trout and coho salmon and two triploid hybrids (female rainbow trout × male brook trout or male coho salmon) were significantly less (P < 0.05) susceptible to IHNV than the pure-species diploid and triploid rainbow trout groups.     

Monoclonal-Antibody-Based Immunodot Assay Distinguishes between Viral Hemorrhagic Septicemia Virus (VHSV) and Infectious Hematopoietic Necrosis Virus (IHNV)

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).     

Biochemical and Antigenic Properties of the First Isolates of Infectious Hematopoietic Necrosis Virus from Salmonid Fish in Europe

Abstract

The first isolates of infectious hematopoietic necrosis virus (IHNV) recovered from rainbow trout Oncorhynchus mykiss (formerly Salmo gairdneri) in France and Italy were compared to six representative strains from North America by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) of virion polypeptides and neutralization by monoclonal antibodies (MAbs). All three IHNV isolates from Europe had similar polypeptide profiles when compared by SDS-PAGE. An analysis of the antigenic relatedness of the European isolates to representative strains from North America showed that they were clearly different from viruses obtained from salmonids in California. The RB/B5 MAb, which was developed against virus isolated from adult steelhead (anadromous rainbow trout) reared in central Oregon, neutralized all isolates examined. The 193–110/B4 MAb, developed against IHNV isolated from infected yearling rainbow trout in southern Idaho, neutralized all isolates tested except those from California. The SRCV/A4 MAb, developed against Sacramento River chinook virus (SRCV) isolated from adult spring chinook salmon O. tshawytscha in central California, was the least reactive, and strong neutralization was observed only with the SRCV strain of IHNV from California. However, partial reactivity of the virus isolates from France with the SRCV/A4 MAb distinguished them from the virus recovered from salmonids in Italy.     

Enhanced Detection of Infectious Hematopoietic Necrosis Virus and Other Fish Viruses by Pretreatment of Cell Monolayers with Polyethylene Glycol

Abstract

To improve quantification of very low levels of infectious hematopoietic necrosis virus (IHNV) in samples of tissue, ovarian fluid, or natural water supplies, we tested the ability of polyethylene glycol (PEG) to enhance the sensitivity and speed of the plaque assay system. We compared 4, 7, and 10% solutions of PEG of molecular weight 6,000, 8,000, or 20,000 applied at selected volumes and for various durations. When cell monolayers of epithelioma papulosum cyprini (EPC), fathead minnow (FHM), chinook salmon embryo (CHSE-214), and bluegill fry (BF2) were pretreated with 7% PEG-20,000, they produced 4-17-fold increases in plaque assay titers of IHNV. The plaque assay titers of viral hemorrhagic septicemia virus, chum salmon reovirus, and chinook salmon paramyxovirus were also enhanced by exposure of CHSE-214 cells to PEG, but the titers of infectious pancreatic necrosis virus and Oncorhynchus masou virus were not substantially changed. Plaques formed by IHNV on PEG-treated EPC cells incubated at 15°C had a larger mean diameter at 6 d than those on control cells at 8 d; this suggests the assay could be shortened by use of PEG. Pretreatment of EPC cell monolayers with PEG enabled detection of IHNV in some samples that appeared negative with untreated cells. For example, when ovarian fluid samples from chinook salmon Oncorhynchus tshawytscha were inoculated onto untreated monolayers of EPC cells, IHNV was detected in only 11 of 51 samples; 17 of the samples were positive when PEG-treated EPC cells were used.     

Glycoprotein from Infectious Hematopoietic Necrosis Virus (IHNV) Induces Protective Immunity against Five IHNV Types

Abstract

Infectious hematopoietic necrosis virus (IHNV) is a fish pathogen that kills young salmon and trout. Outbreaks of the disease among hatchery-reared fish are a problem in the northwestern USA from northern California to Alaska. At least five biochemical types and several strains of differing host specificity of IHNV exist. Any vaccine developed to immunize fish must be able to elicit a response that will neutralize all strains of IHNV. This report shows that a single type of IHNV can induce a protective immune response in vivo to the five biochemical types of IHNV and indicates that, of the IHNV isolates examined, there is at least one common major neutralization epitope. Therefore, a vaccine developed against this common neutralization epitope will provide cross-protective immunity against these IHNV variants.     

Survivability of Infectious Hematopoietic Necrosis Virus in Fertilized Eggs of Masu and Chum Salmon

Abstract

The possibility of vertical transmission of infectious hematopoietic necrosis virus (IHNV) was studied with the eggs of masu (cherry) salmon Oncorhynchus masou and chum salmon O. keta. The surfaces of eggs and sperm were contaminated with IHNV (10^3.8-10^4.8 50% tissue culture infective dose [TCID50]/egg) and then the eggs were fertilized. Eggs just after fertilization and embryonated eggs also were infected by injection with IHNV (10^3.8 TCID50/egg) directly into the yolk. During incubation, eggs were held in running water at 10°C. Mortality of the eggs or hatched progeny was determined and isolation of IHNV on the surface or inside of the eggs was determined during the incubation period. No mortality occurred and no virus was detected in fertile eggs from contaminated gametes. For injected eggs, IHNV was not detected on the surface of masu and chum salmon eggs after 1 d of incubation. Infectivity of IHNV inside the eggs decreased gradually and could not be detected after 1 month of incubation. This rate of IHNV reduction in the fertilized egg was similar to that found in a mixture of IHNV and homogenized yolk contents. Several individual yolk components also showed anti-IHNV activity. When eyed eggs were injected with IHNV, the embryos of both masu and chum salmon became infected, and the concentration of virus increased rapidly and reached more than 10^6.5 TCID50/fish. The cumulative mortality of eggs injected at the eyed stage for both masu and chum salmon was 90%. The susceptibilities of hatched-out larvae of masu and chum salmon to IHNV were different; cumulative mortality was more than 90% in masu salmon and 20–30% in chum salmon artificially infected with the virus. We concluded that vertical transmission of IHNV is doubtful because the virus is apparently unable to survive in eggs before the eyed stage.     

Serological Evidence of Infectious Hematopoietic Necrosis in Rainbow Trout from a French Outbreak of Disease

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.     

Production of Neutralizing Antisera against Viral Hemorrhagic Septicemia (VHS) Virus by Intravenous Injections of Rabbits

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.     

Genetic diversity of infectious hematopoietic necrosis virus from Feather River and Lake Oroville, California, and virulence of selected isolates for Chinook salmon and rainbow trout

Infectious hematopoietic necrosis virus (IHNV) is a significant pathogen of young salmonid fishes worldwide but particularly within the historical range of the Pacific Northwest and California. In the Sacramento and San Joaquin River drainages of California, IHNV outbreaks in juvenile Chinook salmon Oncorhynchus tshawytscha have been observed regularly at large production hatcheries, including Coleman National Fish Hatchery (established in 1941) and Feather River State Fish Hatchery (FRH; established in 1967), since facility operations began. Recent severe epidemics at the FRH in 1998 and 2000-2002 prompted investigations into the characteristics and potential sources of virus at this facility. Both phylogenetic analyses of a variable portion of the glycoprotein gene and serologic comparisons based on neutralization with three polyclonal rabbit sera were used to characterize 82 IHNV isolates from the Feather River watershed between 1969 and 2004. All isolates examined were in the L genogroup and belonged to one of three serologic groups typical of IHNV from California. The IHNV isolates from the Feather River area demonstrated a maximum nucleotide sequence divergence of 4.0%, and new isolates appeared to emerge from previous isolates rather than by the introduction of more diverse subgroups from exogenous sources. The earliest isolates examined from the watershed formed the subgroup LI, which disappeared coincidently with a temporal shift to new genetic and serologic types of the larger subgroup LII. Experimental challenges demonstrated no significant differences in the virulence for juvenile Chinook salmon and rainbow trout O. mykiss from selected isolates representing the principal types of IHNV found historically and from recent epidemics at FRH. While most isolates were equally virulent for both host species, one isolate was found to be more virulent for Chinook salmon than for rainbow trout.     

White Sturgeon as a Potential Vector of Infectious Hematopoietic Necrosis Virus

Abstract

Cell lines from white sturgeon Acipenser transmontanus were derived from peripheral blood cells, heart, and spleen. Incubated with infectious hematopoietic necrosis virus (IHNV) for 8 d at l5°C, these cell lines produced 0.7–53.2 plaque-forming units (PFU)/cell. Waterborne exposure of larval white sturgeons (60 d posthatch) to 10⁶ PFU/mL of IHNV resulted in 10% mortality 5–6 d postinfection, with virus concentrations consistently greater than 10⁵ PFU/g. A replicate group of larval white sturgeons that were sampled at different times post-IHNV exposure had no detectable virus at 24 h, but 72% of the fish had IHNV concentrations of 10²-10⁶ PFU/g when they were examined 2–9 d postinfection. Juvenile white sturgeons (mean weight, 35 g) immersed in or injected with IHNV exhibited no mortality, and virus was only detected immediately postexposure in just 25% of the fish tested. Juvenile white sturgeons fed either virus-free rainbow trout Oncorhynchus mykiss or dead IHNV-infected rainbow trout had no viable virus in their feces. Juvenile white sturgeons fed or exposed to IHNV failed to transmit the virus to cohabiting rainbow trout fry. These results suggest that IHNV can replicate in larval white sturgeons but presumably not in juveniles or adults. Virus neutralization activity was detected in serum from adult white sturgeons (4–6 years old) cultured with rainbow trout exposed to IHNV but not in white sturgeons kept in a pathogen-free environment and fed a manufactured diet. White sturgeon serum with IHNV-neutralizing activity was used to passively immunize rainbow trout, and it provided significant (P < 0.01) protection against IHNV challenge.     

Detection of Infectious Pancreatic Necrosis Virus from the Leeches Hemiclepsis marginata and Hirudo medicinalis

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     

Optimization of a Plaque Neutralization Test (PNT) to Identify the Exposure History of Pacific Herring to Viral Hemorrhagic Septicemia Virus (VHSV)

Abstract

Methods 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     

Survey of Pathogens in Juvenile Salmon Oncorhynchus Spp. Migrating through Pacific Northwest Estuaries

Abstract

Although the adverse impact of pathogens on salmon populations in the Pacific Northwest is often discussed and recognized, little is currently known regarding the incidence and corresponding significance of delayed disease-induced mortalities. In the study reported herein, we surveyed the presence and prevalence of selected micro- and macroparasites in out-migrant juvenile coho salmon Oncorhynchus kisutch and Chinook salmon O. tshawytscha from 12 coastal estuaries in the Pacific Northwest over a 6-year period (1996–2001). The major finding of this study was the widespread occurrence of pathogens in wild salmon from Pacific Northwest estuaries. The six most prevalent pathogens infecting both juvenile Chinook and coho salmon were Renibacterium salmoninarum, Nanophyetus salmincola, an erythrocytic cytoplasmic virus (erythrocytic inclusion body syndrome or erythrocytic necrosis virus), and three gram-negative bacteria (Listonella anguillarum, Yersinia ruckeri, and Aeromonas salmonicida). The most prevalent pathogen in both Chinook and coho salmon was N. salmincola, followed by the pathogens R. salmoninarum and the erythrocytic cytoplasmic virus. Statistically significant differences in the prevalence of R. salmoninarum and N. salmincola were observed between Chinook and coho salmon. Based on the prevalence of pathogens observed in this study, disease appears to be a potentially significant factor governing the population numbers of salmon in the Pacific Northwest. Development of a detailed understanding of the principal components influencing the ecology of infectious disease will aid in the development of management and control strategies to mitigate disease in and hence further the recovery of salmon stocks listed under the Endangered Species Act.     

Infectious Salmon Anemia Virus (ISAV) in Brown Trout

Abstract

Infectious salmon anemia (ISA) is a viral disease of Atlantic salmon Salmo salar that have been exposed to seawater in fish farms or hatcheries. This disease was previously believed to be exclusively one of salmon. However, it has been shown that anadromous brown trout Salmo trutta may carry the ISA virus (ISAV). Propagation of the ISAV in brown trout without the trout's showing any gross clinical signs of disease could be a result of a longstanding host-pathogen relationship between the virus and brown trout. A brown trout population isolated from the sea during the last 5,000 years and expected to be naive to the virus was challenged. These fish did not develop any gross signs of disease, but a few ISAVs were present as late as 46 d postchallenge. It was also shown that the ISA virus was present in brown trout as late as 7 months after challenge.     

Characteristics of Two Saprolegnia Species Isolated from Coho Salmon with Saprolegniosis

Abstract

Several fungi have been isolated from the lesions of coho salmon Oncorhynchus kisutch that have saprolegniosis. Of these fungi, one that occurred frequently was identified as Saprolegnia parasitica strain H2 (=S. diclina type 1). A much rarer fungus was identified as S. diclina strain H3 (=S. diclina type 3). This article describes the pathogenicity of the isolates to coho salmon and the relationship of pathogenicity to the lengths of the isolates, hooked hairs.