Monoclonal antibodies against 27.8 kDa protein receptor efficiently block lymphocystis disease virus infection in flounder Paralichthys olivaceus gill cells

In previous research using co-immunoprecipitation, a 27.8 kDa protein in flounder Paralichthys olivaceus gill (FG) cells was found to bind lymphocystis disease virus (LCDV). In this paper, 13 hybridomas secreting monoclonal antibodies (MAbs) against the 27.8 kDa protein were obtained, and 2 MAbs designated as 2G11 and 3D9 were cloned by limiting dilution. Analyzed by indirect enzyme-linked immunosorbent assay (ELISA) and western blotting, the MAbs specifically reacted with the 27.8 kDa protein of FG cells. Confocal fluorescence microscopy and immunogold electron microscopy (IEM) provided evidence that the epitopes recognized by these MAbs were located primarily on the cell membrane and occasionally in the cytoplasm near the cell membrane of FG cells. The MAbs could block LCDV binding after MAbs were pre-incubated with isolated membrane proteins of FG cells in a blocking ELISA, and MAbs also could inhibit LCDV infection of FG cells in culture. Moreover, several target tissues of LCDV in flounder, including gill, stomach, intestine and liver, displayed the presence of the LCDV receptor-27.8 kDa. These results strongly supported the possibility that the 27.8 kDa protein is the putative receptor specific for LCDV infection of FG cells in flounder.     

Identification of a 27.8 kDa protein from flounder gill cells involved in lymphocystis disease virus binding and infection

In vitro, lymphocystis disease virus (LCDV) infection of flounder gill (FG) cell cultures causes obvious cytopathic effect (CPE). We describe attempts to isolate and characterize the LCDV-binding molecule(s) on the plasma membrane of FG cells that were responsible for virus entry. The results showed that the co-immunoprecipitation assay detected a 27.8 kDa molecule from FG cells that bound to LCDV. In a blocking ELISA, pre-incubation of FG cell membrane proteins with the specific antiserum developed against the 27.8 kDa protein could block LCDV binding. Similarly, antiserum against 27.8 kDa protein could also inhibit LCDV infection of FG cells in vitro. Mass spectrometric analysis established that the 27.8 kDa protein and beta-actin had a strong association. These results strongly supported the possibility that the 27.8 kDa protein was the putative receptor specific for LCDV infection of FG cells.     

Protein and glycoprotein content of lymphocystis disease virus (LCDV).

The polypeptide and glycoprotein composition of eight strains of the fish-pathogenic lymphocystis disease virus (LCDV) isolated from gilt-head seabream (Sparus aurata), blackspot seabream (Pagellus bogaraveo), and sole (Solea senegalensis) were determined. The protein electrophoretic patterns of all LCDV isolates were quite similar regardless of the host fish, showing two major proteins (79.9 and 55.6 kDa) and a variable number of minor proteins. Three groups of LCDV isolates were distinguished according to the number and molecular masses of the minor proteins. Eight glycoproteins were detected inside viral particles of LCDV 2, LCDV 3 and LCDV 5 isolates, but only seven glycoproteins were found inside viral particles of LCDV 1, LCDV 4, LCDV 6, LCDV 7, and LCDV 11 isolates and the reference virus ATCC VR 342 by using five lectins. LCDV glycoproteins were mainly composed of mannose and sialic acid. These glycoproteins could be part of an external viral envelope probably derived from the host cell membrane.     

Relationship between Expression of Cellular Receptor-27.8kDa and Lymphocystis Disease Virus (LCDV) Infection

The 27.8kDa membrane protein from flounder (Paralichthys olivaceus) gill (FG) cells was previously identified as a putative cellular receptor involved in lymphocystis disease virus (LCDV) infection. In this paper, the expression of receptor-27.8kDa (27.8R) and LCDV loads in FG cells and hirame natural embryo (HINAE) cells were investigated upon LCDV infection and anti-27.8R monoclonal antibody (MAb) treatment. The results showed the 27.8R was expressed and co-localized with LCDV in both FG and HINAE cell surface. After LCDV infection, the expression of 27.8R exhibited a dose-dependent up-regulation with the increasing of LCDV titers, and demonstrated a tendency to increase firstly and then decrease during a time course up to 9 days; LCDV copies showed a similar variation trend to the 27.8R expression, however, it reached the highest level later than did the 27.8R expression. Additionally, the 27.8R expression and LCDV copies in FG cells were higher than those in HINAE cells. In the presence of increasing concentration of the anti-27.8R MAbs, the up-regulation of 27.8R expression and the copy numbers of LCDV significantly declined post LCDV infection, and the cytopathic effect induced by LCDV in the two cell lines was accordingly reduced, indicating anti-27.8R MAbs pre-incubation could inhibit the up-regulation of 27.8R expression and LCDV infection. These results suggested that LCDV infection could induce up-regulation of 27.8R expression, which in turn increased susceptibility and availability of FG and HINAE cells for LCDV entry, providing important new insights into the LCDV replication cycle and the interaction between this virus and the host cells.     

Development of molecular techniques for detection of lymphocystis disease virus in different marine fish species

AIMS: The development and evaluation of a protocol based on polymerase chain reaction (PCR) and nucleic acid hybridization techniques for the specific detection of lymphocystis disease virus (LCDV) in several marine fish species. METHODS AND RESULTS: The pair of primers for PCR, OBL3 and OBL4, was designed based on published nucleotide sequence (LCDV-1) and amplifies a fragment within the major capsid protein. The sensitivity was evaluated using DNA from purified viral particles, as well as from cells inoculated with several viral concentrations. The PCR combined with slot blot was the most sensitive methodology, detecting 2.5 ng of viral DNA. Using this methodology LCDV was detected at 5 days postinoculation from SAF-1 cells initially inoculated with 10(-5) TCID(50) ml(-1). The combination of PCR with membrane hybridization has also been proved to be adequate to detect LCDV from apparently healthy carriers by means of caudal fin sample analysis. This asymptomatic infection was also demonstrated by classical virological methods (cell culture and immunoblot). CONCLUSIONS: The protocol described in this study allows the specific detection of LCDV, both in cell cultures and in fin homogenates from asymptomatic fish. SIGNIFICANCE AND IMPACT OF THE STUDY: The detection of asymptomatic carriers by a rapid molecular method using caudal fin sampling, which does not imply animal killing, could be an important tool to control epizootics caused by LCDV, as fish could be analysed before their introduction and/or mobilization in farm facilities.     

Differentiation of lymphocystis disease virus genotype by multiplex PCR

Lymphocystis disease virus (LCDV) is the causative agent of lymphocystis disease. The viruses have been divided into three genotypes (genotype I for LCDV-1, II for Japanese flounder isolates, and III for rockfish isolates) on the basis of major capsid protein (MCP) gene sequences. In this study, we developed a multiplex PCR primer set in order to distinguish these genotypes. We also analyzed the MCP gene of a new LCDV isolate from the sea bass (SB98Yosu). Comparison of sequence identities between SB98Yosu and eight Japanese flounder isolates, revealed identity of more than 90.1% at nucleotide level and 96.5% at deduced amino acid level, respectively. Phylogenetic analyses based on the MCP gene showed that SB98Yosu belongs to genotype II, along with Japanese flounder isolates. Multiplex PCR based on the MCP gene allowed us to identify these genotypes in a simple and rapid manner, even in a sample that contained two genotypes, in this case genotypes II and III.     

A novel heart‐cell line from brown‐marbled grouper Epinephelus fuscoguttatus and its susceptibility to iridovirus

A novel cell line (bmGH) was established from the heart of brown‐marbled grouper Epinephelus fuscoguttatus and its viral susceptibility was evaluated. The bmGH cells have been subcultured to passage 65 in Dulbecco's modified eagle medium:Ham's nutrient mixture F‐12 (1:1) medium (DMEM/F12) which was further supplemented with foetal bovine serum (FBS), carboxymethyl‐chitosan, basic fibroblast growth factor (bFGF) and insulin‐like growth factor‐I (IGF‐I) at 24° C. The heart cells have a fibroblastic morphology and proliferated to confluence 14 days later. The cells grew at a steady rate during subsequent subculture and had a population doubling time of 40·3 h at passage 60. Karyotype analysis showed that these cells exhibited chromosomal aneuploidy with a modal chromosome number of 48. The results of viral susceptibility characterization revealed that cytopathic effects (CPE) of bmGH cells appeared after infection by two iridoviruses, turbot reddish body iridovirus (TRBIV) and lymphocystis disease virus (LCDV). A large number of TRBIV and LCDV particles were also observed in the infected bmGH cells by electron microscope examination. All of these facts indicate that the bmGH cell line established here may serve as a valuable tool for studies of cell‐virus interactions and has potential applications in fish virus isolation, propagation and vaccine development.     

Anti-viral activity of galectin-1 from flounder Paralichthys olivaceus

Galectins are a family of Ca²⁺-independent soluble lectins characterized by their affinity to β-galactosides. Mammalian galectins have been shown to play a defense role against certain bacteria, fungi and viruses. However, the immunological functions of galectins in fish is poorly characterized. Here we demonstrated that the expression of galectin-1 gene from the flounder Paralichthys olivaceus was decreased in the initial 8 h after challenge with poly I:C, then increased markedly from 24 h onwards, and the recombinant galectin-1 was able to neutralize the lymphocystis disease virus (LCDV), inhibiting the formation of cytopathic effects. In addition, the recombinant galectin had a potential anti-inflammatory activity against infection by LCDV, and was able to restrain the overexpression of the anti-viral protein gene mx against virus infection. These results indicate that flounder galectin-1 has an anti-viral activity, capable of reducing LCDV pathogenicity.     

Effect of temperature on immune response of Japanese flounder (Paralichthys olivaceus) to inactivated lymphocystis disease virus (LCDV)

Using flow cytometric analysis, the dynamics of surface immunoglobulin positive (sIg+) cells in lymphoid organs of Japanese flounder (Paralichthys olivaceus) reared at 9, 15, 21 and 26 °C, was investigated following intraperitoneal injection with inactivated lymphocystis disease virus (LCDV). The results showed that the percentages of sIg+ cells were suppressed in peripheral blood leucocytes (PBL), spleen leucocytes (SL) and head kidney leucocytes (HKL) from 9 °C to 15 °C immunized groups, and arrived at their peaks (9 °C: 26.12% in PBL, 18.84% in SL, 17.53% in HKL; 15 °C: 38.82% in PBL, 25.38% in SL, 23.95% in HKL) at 9th and 7th week after immunization, respectively. While the proportions of sIg+ cells in PBL, SL and HKL increased most prominent in the 21 °C group and reached the peaks (54.16% in PBL, 30.32% in SL, 30.23% in HKL) at 5th week. The responses of sIg+ cells from 26 °C group were similar to that from 21 °C group and reached the peaks (35.3% in PBL, 26.24% in SL, 21.83% in HKL) at 5th week. Simultaneously, the kinetics of the specific antibody titer against LCDV in sera was determined. It was shown that the antibody response in the 21 °C group was most prominent and reached the peak earliest. These results indicated inactivated LCDV elicited the most powerful immune response when Japanese flounder maintained at the optimal temperature (21 °C) and obtained the most effective immunization, while the response were suppressed at 9 °C, 15 °C or 26 °C.     

中国淋巴囊肿病毒胸苷酸合酶基因结构特点及分析

胸苷酸合酶(Thymidylate synthase,TS)是进行DNA合成所必需的酶类,与细胞分化及肿瘤发生密切相关。淋巴囊肿病毒属于虹彩病毒科成员,是能引起百余种淡、海水鱼感染,并产生肿瘤的病毒病原。在已完成中国淋巴囊肿病毒株(Lymphocystis disease virus-China,LCDV-C)基因组序列测定的基础上,本文对位于LCDV-C基因组开放阅读框ORF011L的TS基因结构、及其推定蛋白结构进行了分析。该基因全长858bp,GC含量为28．2％,编码一个长为286aa、分子量为32．7kD、等电点为7．1的推定蛋白,称之为中国淋巴囊肿病毒胸苷酸合酶(LCDV-CTS)。该酶所具有的叶酸结合区在第44和70位氨基酸之间,dUMP结合区在第163和206位氨基酸之间,24个必需氨基酸具有高度保守性。二级结构预测结果显示LCDV-C TS含8个a螺旋,6个β折叠和23个环,表明其具备酶活性分子所有的柔性和可变性结构特征。这是迄今所知在脊椎动物虹彩病毒中唯一含两个完整结合区的TS。对来自包括LCDV在内二十个物种的TS结构进行同源性分析,显示LCDV-C TS被单独分为一枝。进一步对LCDV-C TS可能的起源途径及与宿主的作用等进行了探讨。     

An autopsy case of tuberous sclerosis. Histological and immunohistochemical study.

We report an autopsy case of tuberous sclerosis. A 19-year-old Japanese man had shown facial adenoma sebaceum, intractable convulsive seizures and severe mental retardation. Gross inspection of the brain showed a cortical tuber from the orbital frontal lobe to the rhinencephalon of the left side and a few subependymal nodules. Histological examination revealed many cortical tubers in the cerebral hemispheres, a few subependymal nodules with calcification and multifocal clusters of heterotopic cells in the white matter (white matter nodules). In these lesions, massive giant cells with abundant eosinophilic cytoplasm and without Nissl substances were found. Although the size and shape of the giant cells were variable, the majority of them were gemistcytic, ovoid or polygonal. Immunohistochemistry was employed in these lesions using antibodies against neurofilament protein (NFP), glial fibrillary acidic protein (GFAP), vimentin (VM) and myelin basic protein (MBP). In the cortical tuber, the majority of the giant cells were positive for both NFP and VM, but a few were positive for GFAP. All of them were negative for MBP. In the subependymal nodule and white matter nodule, the majority of the giant cells were positive for NFP, but a few were positive for VM, and none were positive for either GFAP and MBP. These findings suggest that the majority of the giant cells may be immature cells toward neuronal series and a few may be those toward astroglial series. These findings also indicate that the giant cells in the subependymal nodule and white matter nodule may be more differentiated than those in the cortical tuber. The nature of the giant cells in tuberous sclerosis is discussed.     

Lymphocystis disease in the winter flounder, Pseudopleuronectes americanus.

Nodular lesions on the fins of winter flounder, Pseudopleuronemphocystis disease. Hypertrophied, encapsulated connective tissue cells contained cytoplasmic inclusions composed of icosahedral virus particles. The winter flounder is a new host for lymphocystis disease and is the second flatfish in the western North Atlantic to have the disease.     

In Vitro Morphology and Maturation of Lymphocystis Virus

The temporal sequence of development of lymphocystis disease virus (LDV) was studied by electron microscopy of thin sections of infected tissue-culture monolayers. Neither the typical cytoplasmic inclusion nor virus was detected at 4 days postinfection (PI). Inclusions, but no viruses, were detected at 8 days PI. Inclusions and associated virions were detected at 15 days PI, and by 28 days PI the undisrupted cells were filled with the typical virions. No release mechanism was detected, and severe clumping of particles was noted. Negatively stained preparations revealed particles 200 nm in diameter with no capsomere structure and apparent spikes associated with the particle. The relationship of LDV to the well-defined deoxyribonucleic acid virus groups is discussed.     

Complete genome sequence of lymphocystis disease virus isolated from China

Lymphocystis diseases in fish throughout the world have been extensively described. Here we report the complete genome sequence of lymphocystis disease virus isolated in China (LCDV-C), an LCDV isolated from cultured flounder (Paralichthys olivaceus) with lymphocystis disease in China. The LCDV-C genome is 186,250 bp, with a base composition of 27.25% G+C. Computer-assisted analysis revealed 240 potential open reading frames (ORFs) and 176 nonoverlapping putative viral genes, which encode polypeptides ranging from 40 to 1,193 amino acids. The percent coding density is 67%, and the average length of each ORF is 702 bp. A search of the GenBank database using the 176 individual putative genes revealed 103 homologues to the corresponding ORFs of LCDV-1 and 73 potential genes that were not found in LCDV-1 and other iridoviruses. Among the 73 genes, there are 8 genes that contain conserved domains of cellular genes and 65 novel genes that do not show any significant homology with the sequences in public databases. Although a certain extent of similarity between putative gene products of LCDV-C and corresponding proteins of LCDV-1 was revealed, no colinearity was detected when their ORF arrangements and coding strategies were compared to each other, suggesting that a high degree of genetic rearrangements between them has occurred. And a large number of tandem and overlapping repeated sequences were observed in the LCDV-C genome. The deduced amino acid sequence of the major capsid protein (MCP) presents the highest identity to those of LCDV-1 and other iridoviruses among the LCDV-C gene products. Furthermore, a phylogenetic tree was constructed based on the multiple alignments of nine MCP amino acid sequences. Interestingly, LCDV-C and LCDV-1 were clustered together, but their amino acid identity is much less than that in other clusters. The unexpected levels of divergence between their genomes in size, gene organization, and gene product identity suggest that LCDV-C and LCDV-1 shouldn't belong to a same species and that LCDV-C should be considered a species different from LCDV-1.     

The predominant virus antigen burden is present in macrophages in Theiler's murine encephalomyelitis virus-induced demyelinating disease.

Theiler's murine encephalomyelitis virus (TMEV) produces a persistent central nervous system infection and chronic, inflammatory demyelinating disease in susceptible mice. TMEV antigen(s) and RNA genome have been detected in astrocytes, oligodendrocytes, and macrophages during persistence. Whether there is a predominant cell type in which TMEV persists has not been resolved. Since TMEV-induced demyelinating lesions are infiltrated with macrophages and a number of other persistent viruses show near-exclusive tropism for these phagocytic cells, we used two-color immunofluorescent staining with conventional and confocal microscopy to colocalize TMEV to cells that stain with monoclonal antibodies (MOMA-2) [unknown antigen], Mac-1 [CD11b], FA-11 [CD66], and 2F8 [scavenger receptor]) to macrophages in BeAn-infected SJL mice. A predominant virus antigen burden within macrophages infiltrating demyelinating lesions was seen. A dichotomy of cells staining for virus antigen(s) was found with infected cells containing either a large or small virus antigen load. Ninety percent of cells with a large virus antigen load were large phagocytes (20 to 50 microns) that were readily detected at low power (5x objective). Cells with smaller amounts of virus antigen(s) turned out to be either these same large phagocytic cells or much smaller cells, approximately equal to 10 microns in diameter. Forty percent of cells with a small virus antigen load were macrophages. The unidentified approximately equal to 10-microns cells that are virus antigen positive and macrophage negative in this study could still be macrophages, or they may be oligodendrocytes. The fact that virus was detected in the cytoplasm and not phagolysosomes of macrophages and the sheer mass of fluorescently stained virus proteins in some macrophages suggest that TMEV persists in these phagocytic cells by active virus replication.     

Isolation of Carnation Ringspot Virus from a Canal Near a Sewage Plant: cDNA Hybridization Analysis, Serology and Cytopathology

A small water sample of only 60 ml from the Oker Aue canal near Braunschweig was ultracentrifuged. The resuspended pellet was rubbed on Chenopodium quinoa leaves which responded with the formation of almost 200 local lesions. The virus causing these lesions was identified as carnation ringspot virus (CarRSV) by means of dot blot hybridization using random-primed cDNAs to the viral nucleic acids and by means of serology. Northern blot analysis revealed that the two RNA species of the virus which consisted of c. 3.7 and 1.5 Kb, respectively, have little or no base sequence homology. In immunoelectrophoresis at pH 7.0 the virus migrated towards the cathode. The isometric particles were 33 nm in diameter, round to slightly angular in outline, and showed a distinct granular or knobly surface structure. Virus particles occurred in the cytoplasm, nuclei, and vacuoles of infected cells which in addition contained amorphous granules in the cytoplasm and/or proliferated endoplasmic reticulum. Heavily, affected cells were necrotized and contained large virus particle aggregates which sometimes were crystallized. CarRSV is the third carnation virus, after carnation mottle and carnation Italian ringspot viruses, which was identified in a natural water.     

患病中国大鲵中分离到一株虹彩病毒及其特性的研究

从陕西某大鲵养殖场患病的大鲵体内分离到一株病毒。患病大鲵以体表溃疡,特别是肢体远端溃烂为主要临床特征。该病毒于10℃~30℃能在BF-2(Caudal trunk cells of blue-gillfry)、CO(Gorad cells of grass carp)、CHSE(Embryo cells of Chinook salmon)、FHM(cells of fathed minnow)等细胞中较好地增殖,最适生长温度为25℃~30℃。病毒对氯仿、热、pH3、pH10敏感,DNA抑制剂5-氟-2′-脱氧尿苷(5-fluro-2-′deoxyuridine,FUDR)能抑制病毒在细胞中的增殖,提示该病毒是有囊膜的DNA病毒。经电镜观察,在感染了病毒的细胞切片中可见到大量直径约130~150 nm有囊膜的六角形病毒颗粒成晶格排列在细胞质里,病毒呈典型的虹彩病毒形态。抽提病毒核酸后进行PCR扩增,用已知蛙病毒主要衣壳蛋白(MCP)基因的保守序列设计的引物能扩增出431bp的片段。扩增的片段测序后,和已知的几种蛙病毒属成员的主要衣壳蛋白基因中的相应片段进行比对,相似性在96%以上。血清学试验结果显示该病毒和IPNV(Infectious pancreatic necrosis virus,IPNV)、GCRV(Grass carp reovirus,GCRV)、SVCV(Spring viraemia of carp virus,SVCV)I、HNV(Infectious hematopoietic necrosis virus,IHNV)在血清学上没有相关性。以上结果提示该病毒可能是虹彩病毒科蛙病毒属的成员,暂时命名为大鲵虹彩病毒(Andrias davidianus iridovirus,ADIV)。该病毒与大鲵发病的关系有待进一步研究。     

Gene cloning and expression analysis of IRF1 in half-smooth tongue sole (Cynoglossus semilaevis)

Interferon regulatory factor 1 (IRF1) was known to play key roles in antiviral defense in several species, and some other important biological processes. In this report, full length cDNA of IRF1 from Cynoglossus semilaevis (CsIRF1) was identified. It was of 1,455 bp, containing a 5′ UTR of 104 bp, a 3′ UTR of 541 bp with a poly (A) tail and an ORF of 810 bp encoding a putative protein of 269 amino acids. The putative CsIRF1protein contained one conserved IRF domain (1–113aa), and two low complexity regions (140–158aa and 230–242aa, respectively). Phylogenetic analysis showed that CsIRF1 was conserved in the teleost evolutionary branch, which was independent of mammalian, birds and amphibians. Additionally, CsIRF1 had the 96 % homology with marine fishes, while 66 % with freshwater fishes. The expression profiles of CsIRF1was analyzed by quantitative real-time PCR in healthy tissues and in immune tissues challenged with different pathogens [Vibrio anguillarum and Lymphocystis disease virus (LCDV)], respectively. CsIRF1 was widely expressed in healthy tissues of Cynoglossus semilaevis and with the highest expression in blood, as much as 19 times of that in liver. V. anguillarum and LCDV both induced the CsIRF1 gene expression distinctly in liver, with the peak value reached to 98-fold at 6 h and 25-fold at 24 h, respectively. The bacteria induced CsIRF1 suddenly up-expression in each detected tissues. However, at the initial stage of the challenge of virus LCDV, the CsIRF1 expression in blood and spleen were up regulated; on the contrary, its expression in liver and head kidney were down regulated, 0.3 and 0.4-fold 6 h post virus injection, respectively. These results suggested that CsIRF1 gene might involve in not only antiviral activity but also antibacterial procedure, indicating its vital role in Cynoglossus semilaevis innate defense system.     

Infection and propagation of lymphocystis virus isolated from the cultured flounder Paralichthys olivaceus in grass carp cell lines

The causative agent of lymphocystis disease that frequently occurs in cultured flounder Paralichthys olivaceus in China is lymphocystis virus (LV). In this study, 13 fish cell lines were tested for their susceptibility to LV. Of these, 2 cell lines derived from the freshwater grass carp Ctenopharyngodon idellus proved susceptible to the LV, and 1 cell line, GCO (grass carp ovary), was therefore used to replicate and propagate the virus. An obvious cytopathic effect (CPE) was first observed in cell monolayers at 1 d post-inoculation, and at 3 d this had extended to about 75% of the cell monolayer. However, no further CPE extension was observed after 4 d. Cytopathic characteristics induced by the LV were detected by Giemsa staining and fluorescence microscopic observation with Hoechst 33258 staining. The propagated virus particles were also observed by electron microscopy. Ultrastructure analysis revealed several distinct cellular changes, such as chromatin compaction and margination, vesicle formation, cell-surface convolution, nuclear fragmentation and the occurrence of characteristic 'blebs' and cell fusion. This study provides a detailed report of LV infection and propagation in a freshwater fish cell line, and presents direct electron microscopy evidence for propagation of the virus in infected cells. A possible process by which the CPEs are controlled is suggested.