Expression and purification of S5196-272 and S6200-317 proteins from Tilapia Lake Virus (TiLV) and their potential use as vaccines.

Tilapia Lake Virus Disease (TiLVD) is caused by Tilapia Lake Virus (TiLV), and it has a cumulative mortality rate of up to 90% in Nile tilapia (Oreochromis niloticus). TiLV is a negative enveloped single-stranded RNA virus with 10 genomic segments. Segment 5 (S5) and segment 6 (S6) were predicted to include a signaling peptide, suggesting that the encoded proteins of these two segments may exist as part of the virus envelope. Based on bioinformatic predictions, the S5 and S6 proteins in this study were produced, including S527-343, S527-172, S5196-272, S630-317, S630-190, and S6200-317. All proteins were tested for their expression in Escherichia coli. Only S5196-272 and S6200-317 were expressed as soluble and insoluble proteins, respectively. The soluble protein was purified using affinity chromatography, whereas the insoluble protein was solubilized using 6 M urea lysis buffer before purification. Both proteins were further purified using gel filtration chromatography, and the results showed a symmetric peak of both proteins suggested a high degree of uniformity in the conformation of these proteins. Antigenicity results indicated that these proteins were recognized by serum from TiLV-infected fish. The immunization tests revealed that serum antibodies levels in Nile tilapia produced by S5196-272 and S6200-317 were significantly increased (p-value < 0.05) at 7 days post-immunization (dpi) compared to antibody levels on Day 0 (D0). All the results combined suggested a potential vaccine candidate of S5 and S6 for TiLV protection in Nile tilapia.

Histopathology and culturable bacteria associated with "big belly" and "skin nodule" syndromes in ornamental Siamese fighting fish, Betta splendens.

The Siamese fighting fish (Betta splendens) is one of the popular aquarium ornamental fish in the global trade. Large numbers of ornamental fish farmed in central Thailand suffered from two common syndromes; preliminarily named skin nodule syndrome (SNS) and big belly syndrome (BBS): they showed noticeable clinical signs of abnormal appearances resulting in depressed saleability. Since very few specifics are known about causative agents of these syndromes, this study aimed at investigating histopathological features and culturable bacteria associated with these fish infected in the process of farming. Histopathologically, SNS fish consistently exhibited necrosis and severe melanization in the muscles and multiple internal organs. Whereas BBS fish exhibited either typical granulomas or tissue damage associated with acid-fast stained bacteria and Gram negative bacteria, respectively. Six different Gram negative bacterial species were recovered from BBS fish while 23 bacterial species belonging to 14 genera were recovered from fish suffering from SNS. Most of the culturable bacteria are new to betta fish and some of them are known to be marine bacteria, suggesting possible entry route via a contaminated live feed, commercial Artemia shrimp. The true causative agents of these syndromes remain unclear. However, histopathological changes and existence of a wide range of bacteria associated with the naturally diseased fish suggest involvement of multiple bacterial infections.

Quinolone-resistant phenotype of Flavobacterium columnare isolates harbouring point mutations both in gyrA and parC but not in gyrB or parE.

OBJECTIVES: The aim of this study was to determine mutations associated with a quinolone-resistant (QR) phenotype of Flavobacterium columnare isolates. METHODS: The susceptibility of 53 F. columnare isolates to 11 antimicrobials, including 2 quinolones, was investigated by the disk diffusion method. Oxolinic acid (OXO) was subsequently chosen for minimum inhibitory concentration (MIC) assay. Sequence analysis of four genes within the quinolone resistance-determining regions (QRDRs) of OXO-resistant F. columnare compared with susceptible isolates was subsequently performed. RESULTS: The disk diffusion assay revealed that the majority of isolates were susceptible to all tested antimicrobials. However, 14 and 8 isolates were resistant to the quinolone antibiotics OXO and nalidixic acid, respectively. No multidrug resistance was observed. The MIC assay revealed five additional isolates that were resistant to OXO (≥4µg/mL), making a total of 19 OXO-resistant isolates observed in this study. DNA sequencing identified missense mutations both in parC and gyrA but not in gyrB or parE in QR F. columnare isolates. Mutation in parC resulted in the change His87→Tyr. For gyrA, 15 isolates of Thai origin exhibited a change at residue Ser83 to either Phe, Tyr or Ala, whereas 3 Vietnamese isolates contained two mutation sites (Ser83→Phe and Asp87→Tyr). CONCLUSION: This study is the first to reveal that QR phenotype F. columnare isolates harboured missense mutations both in parC and gyrA but not in gyrB or parE of the QRDRs.

Genome characterization of piscine 'Scale drop and Muscle Necrosis syndrome'-associated strain of Vibrio harveyi focusing on bacterial virulence determinants.

AIMS: Genomic characterization of Harveyi clade vibrio strain Y6 causing 'Scale drop and Muscle Necrosis syndrome' (SDMN) isolated from barramundi (Lates calcarifer) in Vietnam. METHODS AND RESULTS: A bacterial genome was sequenced using Illumina MiSeq platform. Multilocus sequence analysis confirmed that the bacterium belongs to Vibrio harveyi species. Further phylogenetic analysis inferred from core genome SNPs revealed a close relationship between our bacterium and the V. harveyi isolated from groupers in Taiwan and China. blastp results indicated that V. harveyi piscine strains carried numerous adhesin, secretion system, siderophore and toxin-related genes. Genome comparison between Y6 and 32 strains of V. harveyi from different origins showed that at least 17 potential virulence genes were present exclusively in the strain Y6. Many of these (six of 17 genes) were homologous to pyoverdine siderophore, a secreted high-affinity iron chelator, clusters originally found in Pseudomonas aeruginosa. Genome of V. harveyi Y6 was incorporated by a bacteriophage VHY6φ and replication protein of the phage was most similar to CTXφ described previously in Vibrio cholerae and Vibrio fischeri. However, the cholera toxin-encoding genes, namely ctxA and ctxB, were absent from VHY6φ, while the CTXφ-enterotoxin gene (zonula occludens toxin; zot) remained intact. CONCLUSIONS: Several putative virulence genes and a phage carrying toxin gene were identified in the genomes of SDMN-associated V. harveyi Y6. SIGNIFICANCE AND IMPACT OF THE STUDY: This study confers genomic information of the piscine pathogenic V. harveyi which recently caused widespread mortality. Such information is of importance to gain insight into bacterial molecular pathogenesis.

Infectious spleen and kidney necrosis disease (ISKND) outbreaks in farmed barramundi (Lates calcarifer) in Vietnam.

Emergence of a disease with clinical signs resembling megalocytivirus infection seriously affected large-scale barramundi farms in Vietnam in 2012-2014 with estimated losses reaching $435,810 per year. An oil-based, inactivated vaccine against red sea bream iridovirus (RSIV) was applied in one farm for disease prevention without analysis of the causative agent, and the farmer reported inadequate protection. Here we describe histological and molecular analysis of the diseased fish. PCR targeting the major capsid protein (MCP) of megalocytiviruses yielded an amplicon with high sequence identity to infectious spleen and kidney necrosis virus (ISKNV) genotype II previously reported from other marine fish but not barramundi. Detection of the virus was confirmed by positive in situ hybridization results with fish tissue lesions of the kidney, liver, pancreas, and brain of the PCR-positive samples. Based on the complete sequence of the MCP gene, the isolate showed 95.2% nucleotide sequence identity and 98.7% amino acid sequence identity (6 residue differences) with the MCP of RSIV. Prediction of antigenic determinants for MCP antigens indicated that the 6 residue differences would result in a significant difference in antigenicity of the two proteins. This was confirmed by automated homology modeling in which structure superimpositioning revealed several unique epitopes in the barramundi isolate. This probably accounted for the low efficiency of the RSIV vaccine when tested by the farmer.

Aeromonas jandaei and Aeromonas veronii caused disease and mortality in Nile tilapia, Oreochromis niloticus (L.).

Diseases caused by motile aeromonads in freshwater fish have been generally assumed to be linked with mainly Aeromonas hydrophila while other species were probably overlooked. Here, we identified two isolates of non-A. hydrophila recovered from Nile tilapia exhibiting disease and mortality after exposed to transport-induced stress and subsequently confirmed their virulence in artificial infection. The bacterial isolates were identified as Aeromonas jandaei and Aeromonas veronii based on phenotypic features and homology of 16S rDNA. Experimental infection revealed that the high dose of A. jandaei (3.7 × 106 CFU fish-1 ) and A. veronii (8.9 × 106 CFU fish-1 ) killed 100% of experimental fish within 24 h, while a 10-fold reduction dose killed 70% and 50% of fish, respectively. When the challenge dose was reduced 100-fold, mortality of the fish exposed to A. jandaei and A. veronii decreased to 20% and 10%, respectively. The survivors from the latter dose administration were rechallenged with respective bacterial species. Lower mortality of rechallenged fish (0%-12.5%) compared to the control groups receiving a primary infection (37.5%) suggested that the survivors after primary infection were able to resist secondary infection. Fish exposed to either A. jandaei or A. veronii exhibited similar clinical signs and histological manifestation.

Virulence assay of rhizoid and non-rhizoid morphotypes of Flavobacterium columnare in red tilapia, Oreochromis sp., fry.

Numerous isolates of Flavobacterium columnare were previously recovered from red tilapia, Oreochromis sp., exhibiting columnaris-like disease in Thai farms, and the phenotypic and genetic characteristics were described. The objective of this study was to determine the virulence of two morphotypes (rhizoid and non-rhizoid colonies) of F. columnare and to determine their ability to adhere to and persist in red tilapia fry. The results showed that the typical rhizoid isolate (CUVET1214) was a highly virulent isolate and caused 100% mortality within 24 h following bath challenge of red tilapia with three different doses. The non-rhizoid isolate (CUVET1201) was avirulent to red tilapia fry. Both morphotypes adhered to and persisted in tilapia similarly at 0.5 and 6 h post-challenge as determined by whole fish bacterial loads. At 24 and 48 h post-challenge, fry challenged with the rhizoid morphotype exhibited significantly higher bacterial loads than the non-rhizoid morphotype. The results suggested that an inability of the non-rhizoid morphotype to persist in tilapia fry may explain lack of virulence.

Phylogenetic analysis of parasitic trematodes of the genus Euclinostomum found in Trichopsis and Betta fish.

Many species of fish in the world are infected with digenean trematodes belonging to the genera Clinostomum and Euclinostomum. In this study, metacercariae, identified as Euclinostomum sp. on the basis of morphological characteristics and molecular data, were taken from 3 osphronemid fish- Trichopsis vittata , Trichopsis schalleri, and Betta imbellis, in Thailand. Phylogenetic analysis based on a mitochondrial gene (cytochrome c oxidase subunit I) and 2 nuclear genes (18S rDNA and ITS-internal transcribed spacer) of these Euclinostomum parasites indicated a clear distinction from those belonging to the Clinostomum genus. These are the first records of partial mitochondrial and nuclear DNA sequences of an Euclinostomum sp.

Identification and characterization of Alix/AIP1 interacting proteins from the black tiger shrimp, Penaeus monodon.

Apoptosis is proposed to be a major cause of death in shrimp viral infections. From our previous study, an apoptosis-related gene, Pm-Alix, was identified from the black tiger shrimp. Its expression was high in defence-related tissues including haemocytes and the lymphoid organ. To clarify its possible role in shrimp, we used Pm-Alix as bait in a yeast two-hybrid analysis to search for Alix interacting proteins in shrimp. Two cDNA sequences discovered had homology to a predicted ubiquitin C of the purple sea urchin, Strongylocentrotus purpuratus, and to a guanylyl cyclase of the red swamp crayfish, Procambarus clarkii. In vitro pull-down assays confirmed positive interaction between Pm-Alix and both proteins. Tissue distribution analysis revealed that Pm-Alix and the two binding partners were widely expressed in various tissues but more highly expressed in haemocytes. However, no significant positive or negative correlation was found in the expression of these genes as shrimp approached morbidity and death after challenge with white spot syndrome virus. Thus, the results suggested that Alix and its interacting partners did not play a direct role related to shrimp death.

Impact of yellow head virus outbreaks in the whiteleg shrimp, Penaeus vannamei (Boone), in Thailand.

Yellow head virus (YHV) is known as a major pathogen in the black tiger shrimp, Penaeus (Penaeus) monodon. It can also cause serious mortality in farmed whiteleg shrimp, Penaeus (Litopenaeus) vannamei. However, there is no published information on the economic and/or production impact of the disease in P. vannamei. Shrimp with gross signs of YHV disease (faded body colour and 60-70% mortality) were observed in 20 study farms rearing P. vannamei in the central part of Thailand from the end of 2007 through early 2008. The estimated economic loss for these farms according to the Thai Animal Aquaculture Association was approximately US$3 million. Detailed sequence analysis of RT-PCR amplicons from shrimp in all the study ponds revealed the presence of YHV Type 1b (YHV-1b) alone (characterized by a 162-bp deletion in the ORF3 region encoding the structural gene for gp116) and the absence of YHV Type 1a (YHV-1a), the original YHV type reported from Thailand. Despite the large 162-bp deletion (= 54 deduced amino acids) in the gp116 structural gene, histopathology of YHV-1b infections was identical to that of YHV-1a infections, and electron microscopy revealed that YHV-1b virions were morphologically indistinguishable from those previously reported for YHV-1a. In addition, an existing commercial RT-PCR detection kit and an immunochromatographic test strip for the detection of YHV were proven to have been valid tests for both YHV-1b and YHV-1a. The source of the virus for these outbreaks was unlikely to have been the post-larvae used to stock the ponds, as they were derived from domesticated specific pathogen-free stocks free of YHV. Thus, it is possible that they originated from an unknown, natural reservoir.