Your search keyword '"Kim, Deok-Hwan"' showing total 2 results

1. Live recombinant Newcastle disease virus vectored vaccine expressing the haemagglutinin of H9N2 avian influenza virus suppresses viral replication in chickens.

Author

Lee, Jiho, Cho, Andrew Y., Kim, Deok-Hwan, Lee, Joong-Bok, Park, Seung-Yong, Choi, In-soo, Lee, Sang-Won, and Song, Chang-Seon

Subjects

*CHICKEN diseases, *AVIAN influenza A virus, *NEWCASTLE disease virus, *VIRAL vaccines, *DISEASE vectors, *VIRAL replication, *PLANT viruses

Abstract

In 2020, the Y280-lineage H9N2 low-pathogenic avian influenza virus (LPAIV) was introduced into South Korea for the first time. Current vaccines are focused on the control of Y439-like viruses; however, there are continuous reports of decrease in egg production and secondary infections caused by Y280-lineage H9N2 LPAI infection in chickens. Therefore, there is an urgent need to develop effective novel vaccines against Y280-lineage H9N2 LPAI. Most commercialized avian influenza vaccines are oil-adjuvanted inactivated vaccines, which are labour-intensive to administer and require higher dosage. In this study, rK148/Y280-HA, a novel recombinant Newcastle disease virus (NDV) vectored vaccine against Y280-lineage H9N2 LPAI, was developed and evaluated using two mass-applicable administration methods, spray vaccination and drinking water vaccination. Regardless of low serum antibody haemagglutination inhibition titres against NDV and Y280-lineage H9N2 LPAI after applying the rK148/Y280-HA vaccine, vaccination with either administration method protected chickens against virulent NDV and Y280-lineage H9N2 LPAIV after the challenge. Taken together, these results indicate that the rK148/Y280 vaccine can be administered using facile mass-application methods to provide protection against the Y280-lineage LPAI. RESEARCH HIGHLIGHTS NDV vectored vaccine harbouring Y280-lineage H9N2 HA protein was successfully generated. NDV vectored vaccine provides protection against NDV. NDV vectored vaccine with H9N2 HA protects against homologous H9N2 LPAIV. [ABSTRACT FROM AUTHOR]

Published

2023

2. Plant‐based, adjuvant‐free, potent multivalent vaccines for avian influenza virus via Lactococcus surface display.

Author

Song, Shi‐Jian, Shin, Gyeong‐Im, Noh, Jinyong, Lee, Jiho, Kim, Deok‐Hwan, Ryu, Gyeongryul, Ahn, Gyeongik, Jeon, Hyungmin, Diao, Hai‐Ping, Park, Youngmin, Kim, Min Gab, Kim, Woe‐Yeon, Kim, Young‐Jin, Sohn, Eun‐Ju, Song, Chang Seon, and Hwang, Inhwan

Subjects

*AVIAN influenza A virus, *INFLUENZA vaccines, *LACTOCOCCUS, *VIRAL vaccines, *AVIAN influenza, *PLANT extracts

Abstract

Influenza epidemics frequently and unpredictably break out all over the world, and seriously affect the breeding industry and human activity. Inactivated and live attenuated viruses have been used as protective vaccines but exhibit high risks for biosafety. Subunit vaccines enjoy high biosafety and specificity but have a few weak points compared to inactivated virus or live attenuated virus vaccines, especially in low immunogenicity. In this study, we developed a new subunit vaccine platform for a potent, adjuvant‐free, and multivalent vaccination. The ectodomains of hemagglutinins (HAs) of influenza viruses were expressed in plants as trimers (tHAs) to mimic their native forms. tHAs in plant extracts were directly used without purification for binding to inactivated Lactococcus (iLact) to produce iLact‐tHAs, an antigen‐carrying bacteria‐like particle (BLP). tHAs BLP showed strong immune responses in mice and chickens without adjuvants. Moreover, simultaneous injection of two different antigens by two different formulas, tHAH5N6 + H9N2 BLP or a combination of tHAH5N6 BLP and tHAH9N2 BLP, led to strong immune responses to both antigens. Based on these results, we propose combinations of plant‐based antigen production and BLP‐based delivery as a highly potent and cost‐effective platform for multivalent vaccination for subunit vaccines. [ABSTRACT FROM AUTHOR]

Published

2021