Your search keyword '"Lee, Woo-Jai"' showing total 3 results

1. Development of three-valent vaccine against streptococcal infections in olive flounder, Paralichthys olivaceus.

Author

Park, Seong Bin, Nho, Seong Won, Jang, Ho Bin, Cha, In Seok, Kim, Mun Seob, Lee, Woo-Jai, and Jung, Tae Sung

Subjects

*DRUG development, *STREPTOCOCCAL diseases, *FLATFISH fisheries, *PARALICHTHYS, *PATHOGENIC bacteria, *FORMALDEHYDE

Abstract

Streptococcus iniae and S. parauberis types I and II are major bacterial pathogens affecting the olive flounder, Paralichthys olivaceus . With the introduction of formalin-killed vaccine for S. iniae , recent epidemiological studies have indicated that S. parauberis infections are becoming increasingly severe and frequent in the olive flounder farming industry. Here, the formalin-killed bacterins were used to develop a three-valent vaccine against three streptococcal infections, and its efficacy was assessed in laboratory- and field-challenge trials. In the laboratory-challenge test, it obtained 75%, 75% and 90% relative percent survival (RPS) values in vaccinated olive flounders challenged with S. iniae , S. parauberis type I, and S. parauberis type II, respectively. For the field-challenge trial, the three-valent vaccine was administered to over 100,000 olive flounders, which were compared to non-injected control fish. An RPS of 74% was observed when S. parauberis infection naturally occurred at 11 fish farms. Serum antibody measurements using olive flounder immunoglobulin-specific antibodies indicated that immunized fish had significantly higher serum antibody levels than control fish up to 6 months post-vaccination. These results demonstrate that the three-valent vaccine using formalin-killed bacterins could effectively protect olive flounders against three major streptococcal infections. Statement of relevance The olive flounder, P. olivaceus , is an economically important fish species in Northeast Asia and the most valuable fish species in South Korea, corresponding to 56.5% of the total mariculture production in 2010 (Baeck et al., 2006). However, streptococcal infections often break out among farmed olive flounders subjected to certain conditions (e.g., high stocking density, poor water quality and high water temperature), leading to mass mortality and severe economic losses (Baeck et al., 2006; Cho et al., 2008) Antibiotic treatments are usually recommended to address such outbreaks, but the prevalence of multi-drug-resistant bacteria means that antibiotic compounds are not always able to eradicate the infections (Creeper and Buller, 2006). The Gram-positive bacteria, Streptococcus iniae and S. parauberis , cause streptococcosis and have severe effects on aquaculture of the olive flounder, barramundi, channel catfish, European sea bass, rainbow trout, striped bass, tilapia, turbot and yellow tail (Gudmundsdóttir and Björnsdóttir, 2007; Han et al., 2011). In the olive flounder, fish infected with S. iniae usually show severe pathological changes, such as darkening, exophthalmia, rectal hernia, abdominal distension, ascites and congestion of intestinal organs, whereas fish infected with S. parauberis rarely exhibited any remarkable pathological finding except for darkening of the skin (Kim et al., 2006). Some vaccines have been reported to prevent S. iniae infection, showing high relative percent survival (RPS) among olive flounders in laboratory trials; such vaccines are now commercially available (Cheng et al., 2010a). However, recent epidemiological studies have suggested that S. parauberis infection has increased and become more severe and frequent as much as infections of S. iniae , which was previously considered the major bacterial pathogen among olive flounder (Park et al., 2012; Park, 2009; Perera et al., 1998). S. parauberis can be divided into two serotypes (types I and II) based on serological testing of a distinctive capsular polysaccharide layer (Bromage and Owens, 2002; Plant and Lapatra, 2011). Since the two serotypes possess specific antigenic characteristics, a vaccine should be able to address both types in order to effectively prevent S. parauberis infection. The present study was undertaken to develop a three-valent vaccine against both serotypes of S. parauberis plus S. iniae using formalin-killed vaccine preparation method. The efficacy of this vaccine against the major streptococcal infections of olive flounder was calculated as RPS and conducted in both laboratory trials and large-scale field trial. This vaccine will be highly useful and more advantageous since the use of this does not require several antibiotics which means safer food production and more sustainable environment. [ABSTRACT FROM AUTHOR]

Published

2016

2. Stability and efficacy of the 3′-UTR A4G-G5A variant of viral hemorrhagic septicemia virus (VHSV) as a live attenuated immersion VHSV vaccine in olive flounder (Paralichthys olivaceus).

Author

Kim, Sung-Hyun, Kim, Meesun, Choi, Go-Eun, Lee, Jeong Ho, Kang, Jung-Ha, Evensen, Øystein, and Lee, Woo-Jai

Subjects

*FISH diseases, *VIRAL hemorrhagic septicemia, *DRUG efficacy, *MEDICATION safety, *DRUG dosage, *IMMUNIZATION, *VACCINATION

Abstract

Viral hemorrhagic septicemia virus (VHSV) is the causative agent of viral hemorrhagic septicemia in fish, a disease that affects a number of teleost fish species including olive flounder ( Paralichthys olivaceus ). In this study, we assessed the safety and efficacy of two recombinant attenuated VHSV strains, termed A4G-G5A and ΔNV, with the purpose to select the most suitable vaccine strain. The virus strains were passaged in two commercially available cell lines, EPC and RTG-2, and the strains were also tested for residual virulence in zebrafish ( Danio rerio ). The A4G-G5A strain showed an attenuated growth profile in both the EPC and RTG-2 cell lines compared to wild-type (WT) VHSV (JF-09, genotype IVa), whereas the growth profile of ΔNV was comparable to the WT strains in RTG-2 cells in contrast to EPC cells. Moreover, ΔNV had higher residual virulence compared to A4G-G5A and was highly pathogenic to zebrafish. The A4G-G5A strain was chosen as vaccine candidate and tested for efficacy in in vivo fish studies in the target species, olive flounder, using an immersion vaccine scheme. Groups of fish were immunized with 10 2.5 , 10 3.5 , 10 4.5 , and 10 5.5 TCID 50 /ml of A4G-G5A giving 5–13.3 cumulative percent mortality (CPM) post immunization. Immunization was followed by a challenge experiment using VHSV-WT. The relative percent survival (RPS) in immunized groups ranged from 81.6% to 100%, correlating with vaccination dose. This study demonstrates that while strain A4G-G5A has retained some residual virulence it confers high level of protection in immunized olive flounder. [ABSTRACT FROM AUTHOR]

Published

2016

3. Comparison of proteome typing and serotyping of Streptococcus parauberis isolates from olive flounder (Paralichthys olivaceus).

Author

Kim, Si Won, Jang, Ho Bin, Lee, Jung Seok, Im, Se Pyeong, Lazarte, Jassy Mary S., Seo, Jong Pyo, Lee, Woo Jai, Kim, Jae Sung, and Jung, Tae Sung

Subjects

*PROTEOMICS, *PATHOGENIC bacteria, *STREPTOCOCCUS, *PARALICHTHYS, *COMPARATIVE studies

Abstract

The olive flounder ( Paralichthys olivaceus ) is a cultivated marine species that is economically important in Korea and Japan. Several bacterial pathogens have caused severe mortalities in farmed olive flounder, especially Streptococcus parauberis . We collected 145 S. parauberis isolates from diseased olive flounders from 2003 to 2008 in Jeju Island, South Korea and characterized them by Matrix-assisted laser desorption ionization-time of flight mass spectrometry (MALDI TOF MS) and by serology. The serological analysis divided the isolates into serotype I (62.1%) and serotype II (36.6%) and the proteome analysis divided the isolates into cluster 1 (43.4%) and cluster 2 (56.6%). All cluster 1 isolates had serotype I, but cluster 2 consisted of serotype I (32.9%), serotype II (64.6%), and others (2.5%). Further detailed analysis of the mass spectra led to identification of several specific m /z peaks that enabled discrimination between cluster 1 and 2 and between serotype I and II within cluster 2. Our results suggest that MALDI TOF MS analysis has potential as an alternative method for the rapid and reliable identification of the fish pathogen S. parauberis . [ABSTRACT FROM AUTHOR]

Published

2015