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.     

Infectious Pancreatic Necrosis Virus: Transmission from Infectious to Susceptible Rainbow Trout Fry

Abstract

Fry of rainbow trout Oncorhynchus mykiss were exposed to serotype VR-299 of infectious pancreatic necrosis virus (IPNV) by using a standardized immersion challenge. In concurrent experiments, fish were monitored for 11 d for excretion of IPNV or monitored for 9 d for excretion and transmission of IPNV to susceptible rainbow trout fry. Immersion-challenged fish began excreting virus within 2 d after challenge. The rate of IPNV excretion per fish increased steadily from about day 4 to day 8 and then decreased. Virus concentrations in tissues of immersion-challenged fish increased exponentially. Susceptible fish became infected with IPNV within 4 d after being introduced to immersion-challenged fish (e.g., 2 d after the challenged fish began excreting virus). By 9 d, 84% of the susceptible fish were infected with IPNV.     

The Lethal Dose of Largemouth Bass Virus in Juvenile Largemouth Bass and the Comparative Susceptibility of Striped Bass

Abstract

Largemouth bass virus (LMBV) is an iridovirus that was isolated from wild adult largemouth bass Micropterus salmoides in the southeastern United States in 1994. Although originally isolated from moribund wild fish, its virulence to juvenile largemouth bass is uncertain. To help clarify this point, two LMBV titrations were made in juvenile largemouth bass. Titers of LMBV in fathead minnow cells were 10^4.8 and 10^5.8 tissue culture infectious doses—50% cytopathic endpoint (TCID50) per milliliter, respectively. Tenfold serial dilutions of LMBV employed in each cell culture titration, injected intraperitoneally (0.1 mL/fish) into largemouth bass produced calculated lethal dose—50% mortality endpoints (LD50s) of 282 (10^2.45) and 288 (10^2.46) infectious doses in two consecutive infectivity trials. Virus yield of assayed infected fish averaged 10^8.5 TCID50/g and 10^7.7 TCID50/g in viscera of moribund and dead fish in the two trials and 10^6.5 TCID50/g in surviving exposed fish 14 d after infection. In a second experiment, largemouth bass had 100% mortality 5 d after injection while virus immersed fish had a significantly (P ≤ 0.005) lower mortality of 17% at 14 d. Similarly treated juvenile striped bass Morone saxatilis suffered 63% mortality after injection and significantly (P ≤ 0.005) lower mortality of 10% after immersion. In a third study of 25 d, 100% of injected largemouth bass died by 5 d after injection, and all of them were virus-positive. Injected striped bass had a significantly (P ≤ 0.005) lower mortality of 24%; all three fish were virus-positive initially, two fish were virus-positive at 18 d, and none were positive at 25 d. Juvenile largemouth bass were highly susceptible to LMBV injection and striped bass were moderately susceptible, but both species were only mildly susceptible when exposed by immersion.     

Characterization of a Cell Line Derived from Inconnu

Abstract

Little is known about the diseases of the northern piscivorous salmonid inconnu Stenodus leucichthys (also known as sheefish). Fish health concerns surrounding transport and culture led to initiation of a cell line, now designated INEM-1, from inconnu embryonic tissue, to be used primarily for viral testing of inconnu. Cells were cultured at 16°C in Eagle's modified minimum essential medium with 10% fetal bovine serum. The fibroblastlike cells have now been passaged 57 times. Optimum growth occurs at 20°C, and doubling time is 1.5 d. Good growth also occurred at 16 and 24°C, but 30°C was rapidly lethal. Optimum density was 100,000 cells/ 35-mm-diameter plate, or 11,000 cells/cm². Chromosome analysis revealed a modal number of 76 chromosomes, two more than has been reported for blastulas of inconnu. The karyotype consists of 16 metacentric, 8 submetacentric, and 52 acrocentric chromosomes. Nucleolar organizing regions were identified on one chromosome pair. The INEM-1 cell line is susceptible to infectious pancreatic necrosis virus and infectious hematopoietic necrosis virus. No mycoplasmal contamination or indigenous viruses were detected.     

Early Kinetics of Infectious Hematopoietic Necrosis Virus (IHNV) Infection in Rainbow Trout

Abstract

A series of experiments was carried out with infectious hematopoietic necrosis virus (IHNV; 193-110 isolate) in rainbow trout Oncorhynchus mykiss (weight, ～1.2 g) to determine the duration of the patent period and the timing of onset of the infectious periods. We first attempted to transmit IHNV to recipient fish from infected rainbow trout 2–3 d after they had been exposed. No infection transfer occurred despite high titers (10^4.79 to 10^4.91 plaque-forming units 5–8 d postexposure (dpe). To determine the number of secondary cases produced by one infectious individual, we exposed approximately 50 rainbow trout (weight, ～1.5 g) in each of seven replicate tanks to a donor fish that had been infected with virus by bath exposure 3 d earlier. The prevalence of infection in recipient fish rose from 0.84% at 2 dpe to 7.9% at 6 dpe. Maximum incidence (22 cases) occurred between 2 and 4 dpe. No disease-specific mortalities occurred in recipient fish during the experiment. The titer of virus in both recipient and donor fish increased from 2 to 4 dpe. There was a positive correlation between the level of infection among donors and prevalence values among recipient fish (r ² = 0.60). The level of challenge by one infectious fish under the conditions provided was enough for infection transfer from sick cohabitant to susceptible fish but was not enough for initiation of a full-scale epizootic among recipients.     

Comparative susceptibility of Marek's disease cell lines to chicken infectious anemia virus

Chicken infectious anemia virus (CIAV) is known to infect and replicate in various Marek's disease chicken cell lines (MDCCs) derived from Marek's disease (MD) tumors. One line, MDCC-MSB1, has been the substrate used in most studies. We compared a total of 26 MDCCs, including two sublines of MDCC-MSB1, MSB1 (L) and MSB1 (S), four other MD tumor-derived lines, and 20 lines derived from MD virus-induced local lesions, for susceptibility to the Cux-1 and CIA-1 strains of CIAV. The cell lines represented six phenotypic groups of T cells based on the expression of CD4, CD8, and TCR-2 and -3 surface markers. Susceptibility was measured by the number of cells positive for viral antigen in immunofluorescence (IF) tests at 3-10 days postinfection. No clear-cut differences were found in susceptibility related to phenotype, although CD4-/8+ lines and CD4-/8- lines might be more susceptible than CD4+/8- lines. However, several individual lines were more susceptible to Cux-1 than the two MSB1 sublines tested. Contrary to an earlier report, cells of MDCC-CU147, a CD8+, TCR3+, local-lesion derived line, were found to be susceptible to CIA-1. In fact, CU147 was distinguished by very high susceptibility to both CIAV strains. In direct comparisons with MSB1, CU147 detected approximately 10-fold lower doses of virus. Also, virus spread was faster (P < 0.05) in CU147 than in MSB1 and other lines. Results from polymerase chain reaction (PCR) tests to detect infection in titrations were in general agreement with IF test results although PCR detected infection in a few terminal dilution cultures that were negative by IF.     

Characterization of Thymidine Kinase Encoded by Channel Catfish Virus

Abstract

The thymidine kinase (TK) encoded by channel catfish virus (CCV) was demonstrated to be biochemically distinguishable from the TK of the host cell line, channel catfish ovary (CCO), as well as from TKs encoded by other herpesviruses. Extracts of CCO cells and of TK-negative CCO cells infected with CCV were assayed for differences in inhibition by deoxynucleosides, in feedback inhibition mediated by thymidine triphosphate (dTTP), and in phosphate donor specificity. Results indicated that, compared with CCO-encoded TK, CCV-encoded TK was more inhibited by deoxypurines and showed less dTTP-mediated feedback inhibition. The CCV-TK was unique among herpesvirus TKs in its inability to utilize CTP as a phosphate donor.     

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.     

Establishment and Characterization of Seven Continuous Cell Lines from Freshwater Fish

Abstract

Seven continuous cell lines were established from salmonid and nonsalmonid fishes. Salmonid cell lines derived from rainbow trout Oncorhynchus mykiss and chum salmon O. keta were designated RTE and RTE-2 (rainbow trout embryo), RTT (rainbow trout tail), and SEH (“sake” or chum salmon embryo head). Nonsalmonid cell lines derived from pond smelt Hypomesus olidus, chevron snakehead Channa striata, and goldfish Carassius auratus were designated WF-1 (“wakasagi” fin), SHH (snakehead heart), and EPG (epithelioma papulosum of goldfish), respectively. Optimum growth for most of the cell lines was observed in Eagle's minimum essential medium buffered with sodium bicarbonate (26 mM) or a combination of sodium bicarbonate (8.9 mM) and tris (16 mM). Likewise, most of the cell lines showed optimum growth at the lowest NaCl concentration tested (0.116 M). Optimum growth temperatures ranged from 15 to 20°C for the salmonid cell lines and from 15 to 30°C for nonsalmonid cell lines. Except for RTT, the cell lines were heteroploid. Eleven fish viruses were used to test the susceptibility of these cell lines. Cell lines derived from salmonids developed cytopathic effects (CPE) when infected with 10 of the 11 fish viruses tested, except for RTT, which produced CPE with only 8 of the fish viruses. Six fish rhabdoviruses used in this study elicited a pronounced CPE when inoculated into nonsalmonid cell lines EPG, WF-1, and SHH. Among the new cell lines, RTE-2 showed the best potential for the isolation of fish viruses.     

Characterization of an infectious pancreatic necrosis (IPN) virus carrier cell culture with resistance to superinfection with heterologous viruses

A state of persistence of a non susceptible fish cell line with infectious pancreatic necrosis virus (IPNV) was established in vitro by experimental infection. The persistently infected culture showed sustained production of infectious virus and could be continuously passaged for months. A distinct feature of this culture is that only a very small fraction of the cells harbours virus replication, in contrast to other reported IPNV-persistently infected cells from salmonid fish, where nearly all the cells express viral antigens. In spite of the small number of detectable IPNV-infected cells, the carrier culture shows resistance to superinfection with homologous as well as heterologous viruses. Temperature shift-up experiments indicate that viral interference is due to continuous replication of IPNV in the culture. Quantitation of Mx gene expression suggested that the interference phenomenon could be mediated by the activation of the interferon (IFN) system. However, conditioned medium from the IPNV-infected cell cultures only marginally protected other cells against VHSV infection, indicating that other type I IFN-independent mechanism may be underlying the resistance of the persistently infected culture to infection with heterologous viruses. Our study defines a novel in vitro model of IPNV persistence and contributes to the understanding of the widespread distribution of aquabirnaviruses in marine and fresh water environments by establishing a carrier state in non susceptible fish species.     

Morphofunctional description of mucous cells in the gills of the Arapaimidae Arapaima gigas (Cuvier) during its development

The gill structure of the Amazonian fish Arapaima gigas (Cuvier 1829) shows ontogenetic changes during development, particularly due the transition from the aquatic to the obligatory air breathing mode of respiration. However, three main cell types can be found in the gills: mitochondrial rich cells, pavement cells and mucous cells (MCs). The MCs are involved in the secretory pathway. The functions of the secreted molecules include mechanical protection of epithelia, protection against parasites and bacterial infection, and role on ion regulation. In this study, we analysed mucous cell location and mucous cell type, based on pH, during the development of A. gigas. Using samples obtained from the environment, gills were collected and fixed in buffered solution. Histological techniques for the identification of MCs were performed Alcian Blue (AB) and periodic acid‐Schiff (PAS). The results showed the presence of PAS+ and AB+ cells in the whole filament in all examined fish. In animals less than 50 g, few MCs were present, and no differences were observed in AB+ and PAS+ cells. In animals weighing close to 500 g, more PAS+ cells than AB+ cells were observed, and in animals that weighed more than 1,000 g, more AB+ cells than PAS+ cells were observed. These observations may be a result of the ontogenetic changes in the gill epithelia, which can change the osmorespiratory compromise in ion regulation functions as well the glycosaminoglycans secreted by PAS cells, which in large animals can play a role in the protection against parasites and bacterial infection.     

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     

Differentiation of canine coronavirus and porcine transmissible gastroenteritis virus by neutralization with canine,porcine and feline sera

Monospecific antisera were prepared in rabbits against canine coronavirus (CCV) and transmissible gastroenteritis virus of pigs (TGEV), and in 24 pigs and 3 cats against TGEV alone. Neutralizing antibody titres were higher for the immunizing than the heterologous virus, although cross-neutralization usually was detected. This confirmed that CCV and TGEV are distinct, but antigenically related coronaviruses. In sera from 41 dogs, CCV-neutralizing titres were on average 2.7 fold higher than TGEV-neutralizing titres, suggesting that CCV was the causal agent. Sera from 29 cats in colonies with feline infectious peritonitis (FIP) and known to contain TGEV-neutralizing antibody, were found to have titres 12.3 fold higher against CCV. The FIP virus (FIPV) is probably more closely related to CCV than TGEV as judged by antigens involved in virus neutralization.Antisera to two isolates of bovine coronavirus, three isolates of haemagglutinating encephalomyelitis virus, seven strains of avian infectious bronchitis virus and the 229E strain of human coronavirus all failed to neutralize CCV and TGEV. Thus CCV, TGEV and probably FIPV fall into a group of antigenically related agents, separable from other members of the family Coronaviridae, by both virus neutralization and immunofluorescence tests.     

Tumour necrosis factor‐alpha‐induced protein 8 (TNFAIP8) expression associated with cell survival and death in cancer cell lines infected with canine distemper virus

Oncolytic virotherapy is a novel strategy for treatment of cancer in humans and companion animals as well. Canine distemper virus (CDV), a paramyxovirus, has proven to be oncolytic through induction of apoptosis in canine‐derived tumour cells, yet the mechanism behind this inhibitory action is poorly understood. In this study, three human mammary tumour cell lines and one canine‐derived adenofibrosarcoma cell line were tested regarding to their susceptibility to CDV infection, cell proliferation, apoptosis, mitochondrial membrane potential and expression of tumour necrosis factor‐alpha‐induced protein 8 (TNFAIP8). CDV replication‐induced cytopathic effect, decrease of cell proliferation rates, and >45% of infected cells were considered death and/or under late apoptosis/necrosis. TNFAIP8 and CDVM gene expression were positively correlated in all cell lines. In addition, mitochondrial membrane depolarization was associated with increase in virus titres (p < 0.005). Thus, these results strongly suggest that both human and canine mammary tumour cells are potential candidates for studies concerning CDV‐induced cancer therapy.     

Iridovirus Infections among Missouri River Sturgeon: Initial Characterization,Transmission, and Evidence for Establishment of a Carrier State

Abstract

Iridovirus infections of the integument were associated with disease and mortality among hatchery-reared populations of juvenile pallid sturgeon Scaphirhynchus albus and shovelnose sturgeon S. platorynchus from the Missouri River. Virus-infected cells in the integument of fins and body were greatly enlarged, possessed pleomorphic and eccentric nuclei, and exhibited an amphophilic to eosinophilic staining of the cytoplasm in hematoxylin-and-eosin-stained sections. Virus particles found in the host cell cytoplasm were composed of an outer hexagonal capsid measuring 254 nm in diameter and surrounding a dense nucleoid. Despite numerous attempts, the virus could not be propagated on routine cell lines used in fish viral diagnostics or from established cell lines from white sturgeon Acipenser transmontanus, pallid sturgeon, or shovelnose sturgeon. Bath exposures of healthy juvenile pallid sturgeon to a crude extract or a 0.45-μm-filtered extract from the fins of infected fish resulted in transmission of the virus and mortality. At water temperatures of 15°C, the first deaths occurred at approximately 1 month; mortality peaked between 50 and 60 d postexposure, after which surviving fish recovered. Presence of the virus was confirmed among dead and moribund pallid sturgeon by both histology and detection of viral DNA by polymerase chain reaction methods. Feeding of infected tissues and cohabitation with virus-infected shovelnose sturgeon also resulted in successful virus transmission to juvenile pallid sturgeon. Virus infections among experimentally exposed pallid sturgeon that recovered from clinical episodes persisted for at least 8.5 months, and these apparently healthy fish transmitted the virus and disease to juvenile pallid sturgeon by cohabitation. The newly described Missouri River sturgeon iridovirus (MRSIV) as found in pallid sturgeon and shovelnose sturgeon shares many properties with a group of iridoviruses associated with serious skin and gill infections in several species of sturgeon.

Received October 5, 2010; accepted October 26, 2010     

Lymphocystis disease in imported tropical fish

Lymphocystis disease, affecting snake-skin gouramis (Trichogaster peltoralis) and blue gouramis (T. tricopterus), was diagnosed histologically in 2 shipments of imported tropical fish. Typical virus particles were readily demonstrated by electron microscopy in negatively stained preparations and in sectioned tissues. Attempts at viral isolation in 2 fish cell lines (RTG-2 and FHM) were unsuccessful as were attempts to transmit the infection to pearl gouramis (T. leeri).     

Invasion and Replication of Photobacterium damselae subsp. piscicida in Fish Cell Lines

Abstract

The objective of this study was to evaluate the ability of Photobacterium damselae subsp. piscicida to invade and replicate within different fish cell lines. Channel catfish ovary (CCO), fathead minnow (FHM), and epithelioma papillosum cyprini (EPC) cell lines were all susceptible to invasion and supported replication of P. damselae in an in vitro invasion assay in which extracellular growth was controlled with gentamicin. The number of bacteria recovered from EPC and CCO cells increased significantly after 6, 12, and 18 h, indicating that P. damselae replicated within those cells. There was also a significant increase in EPC cells at 3 h. Although the number of bacteria recovered from FHM cells increased slightly after 3 and 6 h, it declined at 12 and 18 h. The decline, however, was due to the early release of bacteria from FHM cells associated with a greater susceptibility to initial infection, which resulted in early cell lysis and subsequent exposure to gentamicin in the media. Using light and electron microscopy, we observed the invasion of bacteria as early as 30 min after infection. Intracellular bacteria were initially contained in small, close-fitting vacuoles that developed into large, clear, spacious vacuoles over time. There was no evidence of bacteria free in the cytoplasm. The intracellular location of P. damselae was confirmed by means of transmission electron microscopy with ruthenium red staining to discriminate between the extra- and intracellular spaces. This is the first report that provides evidence of intracellular replication of P. damselae in cell lines.     

An enzyme-linked immunosorbent assay using canine coronavirus-infected CRFK cells as antigen for detection of anti-coronavirus antibody in cat

From the reasons that canine coronavirus (CCV) grows more efficiently than feline coronavirus in a cell culture and they are mutually related in their antigenicities, an enzyme-linked immunosorbent assay (ELISA) using CCV-infected feline kidney (CRFK) cells as substrate antigens was developed for detection of anti-coronavirus antibodies in cats. It was indispensable for generating coronavirus-specific ELISA antibody activities that the sample was applied to the mock-infected, normal CRFK cells in parallel with the CCV-infected cells and then the optical density values given by the mock-infected cell antigen were subtracted from those given by the virus-infected cell antigen. On the basis of ELISA antibody titers obtained in sera from the cats experimentally infected with CCV and from the spontaneous feline infectious peritonitis (FIP) cases, the ELISA described in the present study was found to be applicable as a simple and easy serologic test which was able to detect anti-coronavirus antibodies as efficiently as the indirect immunofluorescence assay with homologous FIP virus.