VHSV IVb infection and autophagy modulation in the rainbow trout gill epithelial cell line RTgill-W1

A cell line derived from heart of rainbow trout is refractory to Tilapia lake virus

Cell lines are important in vitro models to answer biological mechanisms with less genetic variations. The present study was attempted to develop a cell line from rainbow trout, where we obtained a cell line from the heart, named "RBT-H." The cell line was authenticated using karyotyping and cytochrome c oxidase subunit I (COI) gene sequencing. The karyotype demonstrated diploid chromosome number (2n) as 62 and the sequence of partial COI gene was 99.84% similar to rainbow trout COI data set, both suggesting the origin of RBT-H from the rainbow trout. The heart cell line was mycoplasma-free and found to be refractory to infection with the Tilapia lake virus. The RBT-H cell line is deposited in the National Repository of Fish Cell Line (NRFC) at ICAR-NBFGR, Lucknow, India, with Accession no. NRFC0075 for maintenance and distribution to researchers on request for R&D.

Differential response of RTGUTGC and RTGILL-W1 rainbow trout epithelial cell lines to viral stimulation

Mucosal surfaces constitute the main route of entry of pathogens into the host. In fish, these mucosal tissues include, among others, the gastrointestinal tract, the gills and the skin. However, knowledge about the mechanisms of regulation of immunity in these tissues is still scarce, being essential to generate a solid base that allows the development of prevention strategies against these infectious agents. In this work, we have used the RTgutGC and RTgill-W1 epithelial-like cell lines, derived from the gastrointestinal tract and the gill of rainbow trout (Oncorhynchus mykiss), respectively, to investigate the transcriptional response of mucosal epithelial cells to a viral mimic, the dsRNA poly I:C, as well as to two important viral rainbow trout pathogens, namely viral haemorrhagic septicaemia virus (VHSV) and infectious pancreatic necrosis virus (IPNV). Additionally, we have established how the exposure to poly I:C affected the susceptibility of RTgutGC and RTgill-W1 cells to both viruses. Our results reveal important differences in the way these two cell lines respond to viral stimuli, providing interesting information on these cell lines that have emerged in the past years as useful tools to study mucosal responses in fish.

Expression profile and molecular function of beclin-1 in Epinephelus akaara in response to immune stimuli and oxidative stress

Beclin-1, the mammalian ortholog of the yeast autophagy-related gene 6 (Atg 6), is a key regulator of autophagy. A variety of health and disease conditions in mammals are intricately related to the broad spectrum of beclin-1 functions. Nevertheless, few studies have investigated the role of beclin-1 in fish. In this study, we identified and cloned the beclin-1 cDNA (EaBECN-1) of Epinephelus akaara (red-spotted grouper) and carried out in silico analysis, tissue-specific expression analysis, immune challenge experiment, and in vitro analysis of its roles against viral infection and oxidative stress. The open reading frame was 1344 bp long and encoded 447 amino acids with a molecular weight of 51.2 kDa. Beclin-1 consisted of a conserved N-terminal BH3 and APG6 domains, and shared more than 88% identity with other vertebrates, according to a pairwise sequence alignment. EaBECN-1 expression profile analysis in E. akaara revealed that it is mostly expressed in the blood. Moreover, transcriptional modulation of EaBECN-1 was observed following stimulation with lipopolysaccharide (LPS), polyinosinic-polycytidylic acid (poly (I:C)), and nervous necrosis virus. During the viral hemorrhagic septicemia virus challenge, increased viral gene expression was observed at 12 h post-infection in FHM cells ectopically expressing EaBECN-1, and decreased thereafter at 24 h post-infection compared to control cells. However, increased antiviral gene expression at 12 and 24 h confirmed the antiviral function of EaBECN-1. Furthermore, EaBECN-1 overexpression protected the cells against H₂O₂-mediated apoptosis, as evidenced by the MTT assay, analysis of mRNA expression levels of apoptotic genes, and AO-EtBr staining. Overall, our study demonstrated the protective role of EaBECN-1 against viral pathogenesis and oxidative stress through autophagy, increasing our understanding of the role of beclin-1 in fish.

Establishment of a cell line derived from the gills of Gymnocypris przewalskii, an endemic Schizothoracine fish from Qinghai Lake of Tibet Plateau

Gymnocypris przewalskii (Naked carp), a native teleost, plays an important role in maintaining the ecological balance of Lake Qinghai (altitude, 3.2 km), the largest saline lake in China. In this study, a new gill cell line from G. przewalskii was developed using the explant technique and named as GPG. This cell line was maintained in Dulbecco's Modified Eagle Medium (DMEM) (high glucose), supplemented with 15% fetal bovine serum (FBS), and was successfully subcultured up to 32 passages. Meanwhile, this cell line was also authenticated by sequencing the mitochondrial cytochrome C oxidase subunit I (COI) and 16S rRNA genes and by chromosome analysis. With the Cytomegalovirus (CMV) promoter, the GPG cell line could express green fluorescent protein (GFP) at about 5% transfection efficiency. MTT test showed that Clostridium botulinum toxin (BTX) was toxic to the cell line. After cryopreservation with 10% dimethyl sulfoxide (DMSO), this cell line could be successfully revived at an efficiency over 70%. This study revealed that the GPG cell line could be used as materials for physio-chemical investigation of G. przewalskii and also provided a tool for gene function study and toxicological reaction in vitro.

Autophagy modulation in rainbow trout Oncorhynchus mykiss L. and resistance to experimental infection with Flavobacterium psychrophilum

Previously, rainbow trout fed deoxynivalenol (DON) or partially fed (pair-fed) for 4 weeks before and during experimental infection with Flavobacterium psychrophilum had significantly decreased mortality rates. Similar results were obtained in the present study after 12 days, but not after 6 days, feeding 5 ppm DON or pair-fed before infection. Furthermore, feeding 250 ppm chloroquine (CQ) also reduced mortality (p = .052) compared with controls and may have promise for treatment of some fish disease. Parallel groups of fish were maintained on the respective treatments for 15 days, with an additional group that was fasted, but were not infected to monitor autophagy. Fish that were fasted or fed DON had significantly increased LC3II in the liver and fasted fish had significantly decreased LC3II in muscle compared with controls using western blot. There was no difference in LC3II signal in the spleen of any treatment group. Fish that were fasted or pair-fed had significant up-regulation of the Atg genes atg4, atg7, lc3, gabarap and atg12 in muscle using quantitative PCR. Less alteration of Atg expression was seen in liver. Fish treated with CQ had significantly increased expression of atg4, becn1, lc3 and atg12 in the liver. Fish fed DON for 15 days had few alterations of Atg genes in either the liver or muscle. It is still not clear if autophagy is responsible for the resistance of rainbow trout fed DON, CQ or pair-fed before F. psychrophilum infection.

Novirhabdoviruses versus fish innate immunity: A review

Novirhabdoviruses belong to the Rhabdoviridae family of RNA viruses. All of the four members are pathogenic for bony fish. Particularly, Infectious hematopoietic necrosis virus (IHNV) and Viral hemorrhagic septicemia virus (VHSV) often cause mass animal deaths and huge economic losses, representing major obstacles to fish farming industry worldwide. The interactions between fish and novirhabdoviruses are becoming better understood. In this review, we will present our current knowledge of fish innate immunity, particularly type I interferon (IFN-I) response, against novirhabdoviral infection, and the evasion strategies exploited by novirhabdoviruses. Members of Toll-like receptors (TLRs) and RIG-I-like receptors (RLRs) appear to be involved in novirhabdovirus surveillance. NF-κB activation and IFN-I induction are primarily triggered for antiviral defense. Autophagy can also be induced by viral glycoprotein (G). Although sensitive to IFN-I, novirhabdoviruses have nucleoprotein (N), matrix protein (M), and non-virion protein (NV) to interfere with host signal transduction and gene expression steps toward antiviral state establishment. Moreover, novirhabdoviruses may exploit some microRNAs for immunosuppression.

Impact of feed restriction, chloroquine and deoxynivalenol on viral haemorrhagic septicaemia virus IVb in fathead minnow Pimephales promelas Rafinesque

Autophagy can markedly alter host response to infectious disease, and several studies have demonstrated that a restricted diet or deoxynivalenol modulates autophagy and reduces mortality of fish due to bacterial disease. The picture is less clear for viral diseases of fish. Duplicate tanks of fathead minnow, Pimephales promelas Rafinesque, were fed a replete diet (control), 100 µM chloroquine, 5 µM deoxynivalenol, 10% (fasted) or 40% of a replete diet (pair-fed) for 2 weeks and then experimentally infected by intraperitoneal injection with 2 × 10⁵ viral haemorrhagic septicaemia virus IVb. Survival from highest to lowest for the different treatments was as follows: deoxynivalenol (average 43.3%); control (40.0%); pair-fed (35.0%); fasted (33.3%); and chloroquine (21.7%). No treatment significantly altered the survival rate of fathead minnow after VHSV IVb infection when compared to controls; however, the fish fed with chloroquine had significantly lower survival rate than the fish fed deoxynivalenol (p < .05).