Your search keyword '"Young Ki Choi"' showing total 422 results

1. Mammalian adaptation risk in HPAI H5N8: a comprehensive model bridging experimental data with mathematical insights

Author

Santosh Chokkakula, Sol Oh, Won-Suk Choi, Chang Il Kim, Ju Hwan Jeong, Beom Kyu Kim, Ji-Hyun Park, Seong Cheol Min, Eung-Gook Kim, Yun Hee Baek, Young Ki Choi, and Min-Suk Song

Subjects

HPAI H5N8, replication, adaptation, RNA load, regression, quantification, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Understanding the mammalian pathogenesis and interspecies transmission of HPAI H5N8 virus hinges on mapping its adaptive markers. We used deep sequencing to track these markers over five passages in murine lung tissue. Subsequently, we evaluated the growth, selection, and RNA load of eight recombinant viruses with mammalian adaptive markers. By leveraging an integrated non-linear regression model, we quantitatively determined the influence of these markers on growth, adaptation, and RNA expression in mammalian hosts. Furthermore, our findings revealed that the interplay of these markers can lead to synergistic, additive, or antagonistic effects when combined. The elucidation distance method then transformed these results into distinct values, facilitating the derivation of a risk score for each marker. In vivo tests affirmed the accuracy of scores. As more mutations were incorporated, the overall risk score of virus heightened, and the optimal interplay between markers became essential for risk augmentation. Our study provides a robust model to assess risk from adaptive markers of HPAI H5N8, guiding strategies against future influenza threats.

Published

2024

2. HA N193D substitution in the HPAI H5N1 virus alters receptor binding affinity and enhances virulence in mammalian hosts

Author

Seung-Gyu Jang, Young-Il Kim, Mark Anthony B. Casel, Jeong Ho Choi, Ju Ryeon Gil, Rare Rollon, Eun-Ha Kim, Se-Mi Kim, Ho Young Ji, Dong Bin Park, Jungwon Hwang, Jae-Woo Ahn, Myung Hee Kim, Min-Suk Song, and Young Ki Choi

Subjects

HPAI H5N8 virus, Clade 2.3.4.4, reassortant, pathogenecity, South Korea, Influenza infections, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

During the 2021/2022 winter season, we isolated highly pathogenic avian influenza (HPAI) H5N1 viruses harbouring an amino acid substitution from Asparagine(N) to Aspartic acid (D) at residue 193 of the hemagglutinin (HA) receptor binding domain (RBD) from migratory birds in South Korea. Herein, we investigated the characteristics of the N193D HA-RBD substitution in the A/CommonTeal/Korea/W811/2021[CT/W811] virus by using recombinant viruses engineered via reverse genetics (RG). A receptor affinity assay revealed that the N193D HA-RBD substitution in CT/W811 increases α2,6 sialic acid receptor binding affinity. The rCT/W811-HA193N virus caused rapid lethality with high virus titres in chickens compared with the rCT/W811-HA193D virus, while the rCT/W811-HA193D virus exhibited enhanced virulence in mammalian hosts with multiple tissue tropism. Surprisingly, a ferret-to-ferret transmission assay revealed that rCT/W811-HA193D virus replicates well in the respiratory tract, at a rate about 10 times higher than that of rCT/W811-HA193N, and all rCT/W811-HA193D direct contact ferrets were seroconverted at 10 days post-contact. Further, competition transmission assay of the two viruses revealed that rCT/W811-HA193D has enhanced growth kinetics compared with the rCT/W811-HA193N, eventually becoming the dominant strain in nasal turbinates. Further, rCT/W811-HA193D exhibits high infectivity in primary human bronchial epithelial (HBE) cells, suggesting the potential for human infection. Taken together, the HA-193D containing HPAI H5N1 virus from migratory birds showed enhanced virulence in mammalian hosts, but not in avian hosts, with multi-organ replication and ferret-to-ferret transmission. Thus, this suggests that HA-193D change increases the probability of HPAI H5N1 infection and transmission in humans.

Published

2024

3. Seasonal dynamics of Haemaphysalis tick species as SFTSV vectors in South Korea

Author

Hyunwoo Jang, Mark Anthony B. Casel, Seung-gyu Jang, Jeong Ho Choi, Juryeon Gil, Rare Rollon, So youn Cheun, Young-Il Kim, Min Suk Song, and Young Ki Choi

Subjects

severe fever with thrombocytopenia syndrome virus (SFTSV), Haemaphysalis flava, Haemaphysalis longicornis, prevalence, diagnosis, Microbiology, QR1-502

Abstract

ABSTRACT Ticks pose a significant public health threat due to their ability to transmit various pathogens, including emerging tick-borne diseases. This study conducted a comprehensive surveillance of Haemaphysalis tick species and their severe fever with thrombocytopenia syndrome virus (SFTSV) infection rates in South Korea throughout the year 2023, from January to December. To ensure accurate and rapid identification of the prevalent Haemaphysalis tick species in South Korea, we designed PCR primer sets targeting the ITS1 gene, specifically distinguishing Haemaphysalis longicornis from Haemaphysalis flava. Among the 10,343 ticks collected from wild animals, H. longicornis constituted the majority, accounting for 65.5% (6,784/10,343 ticks), followed by H. flava at 33.8% (3,491/10,343 ticks), and Ixodes nipponensis at 0.7% (68/10,343 ticks). These identified ticks were then categorized into 811 pools, with 63 pools testing positive for SFTSV. Remarkably, the prevalence of SFTSV-positive H. longicornis ticks peaked during the summer months, aligning with heightened human outdoor activities and, consequently, an increased risk of human exposure. Conversely, it is noteworthy that H. flava exhibited a higher prevalence during the winter season, reaching its peak in January, with an SFTSV minimum infection rate similar to that of H. longicornis. These findings underscore the year-round presence of Haemaphysalis ticks as potential vectors for SFTSV, extending the temporal window for potential human exposure. Consequently, these results emphasize the necessity for active and continuous field surveillance to comprehensively understand and mitigate the public health risks associated with these tick-borne pathogens.IMPORTANCETo date, the majority of tick surveillance studies have primarily focused on warmer seasons, which are considered optimal periods for ticks to actively seek hosts and transmit pathogens through blood-feeding activities. Consequently, tick species active during winter have often been overlooked, leading to an underestimation of their significance in transmitting severe fever with thrombocytopenia syndrome virus (SFTSV). In this study, we aimed to examine year-round tick prevalence with SFTSV and illuminate the role of the winter-dominant species, Haemaphysalis flava, in South Korea. Through rigorous identification facilitated by a primer set designed specifically for this purpose, we emphasize that H. flava, a competent vector species, harbors SFTSV in the winter season, thereby acting as an overwintering reservoir for the virus. This phenomenon may contribute to a higher infection rate among ticks in the following year.

Published

2024

4. Evolutional dynamics of highly pathogenic avian influenza H5N8 genotypes in wintering bird habitats: Insights from South Korea's 2020–2021 season

Author

Young Jae Si, Seung-gyu Jang, Young-Il Kim, Mark Anthony B. Casel, Dong-ju Kim, Ho Young Ji, Jeong Ho Choi, Ju Ryeon Gil, Rare Rollon, Hyunwoo Jang, So Youn Cheun, Eun-Ha Kim, Hyesung Jeong, and Young Ki Choi

Subjects

HPAI H5N8 virus, Clade 2.3.4.4b, Reassortment, Genotypes, South Korea, Medicine (General), R5-920

Abstract

The winter of 2020–2021 in South Korea witnessed severe outbreaks of Highly Pathogenic Avian Influenza (HPAI) viruses, specifically multiple genotypes of the H5N8 subtype. These outbreaks prompted an extensive investigation into the genetic characteristics and evolutionary dynamics of these viruses. Under the auspices of the National Institute of Wildlife Disease Control and Prevention (NIWDC), we conducted a nationwide surveillance program, collecting 7588 specimens from diverse wild bird habitats. Influenza A viruses were isolated at a rate of 5.0%, with HPAI H5N8 viruses accounting for 38.5% of isolates, predominantly found in wild bird carcasses (97.3%). Genetic analysis revealed the emergence of novel HPAI genotypes due to genetic reassortment events. G1 and G2 viruses were separately introduced into Korea, with G1 viruses displaying dynamic behavior, resulting in diverse sub-genotypes (G1–1 to G1–5) and mainly isolated from clinical specimens. Conversely, the G2 virus, introduced later, became the dominant strain consistently isolated mainly from bird carcasses (88.9%). These findings underscore the emergence of numerous novel HPAI genotypes shaped by multiple reassortment events in high-density wintering grounds of migratory birds. These sites act as hotspots for genetic exchanges, significantly influencing avian ecology, including resident bird species, and contributing to HPAI H5N8 evolution. The genetic diversity and ongoing evolution of these viruses highlight the need for vigilant surveillance and adaptive control measures. Recognizing the potential spillover to human populations, a One Health approach is essential to mitigate the evolving threats posed by avian influenza.

Published

2024

5. Self-assembling Gn head ferritin nanoparticle vaccine provides full protection from lethal challenge of Dabie bandavirus in aged ferrets

Author

Dokyun Kim, Eunha Kim, Semi Kim, Youseung Chung, Chih-Jen Lai, Inho Cha, Sung-Dong Cho, Yunseo Choi, Xinghong Dai, Stephanie Kim, Seokmin Kang, Mi-Jeong Kwak, Ziyi Liu, Younho Choi, Su-Hyung Park, Young Ki Choi, and Jae U. Jung

Subjects

Dabie bandavirus, nanoparticle, tick-borne pathogens, vaccine, ferret model, Microbiology, QR1-502

Abstract

ABSTRACT Dabie bandavirus (DBV), previously known as severe fever with thrombocytopenia syndrome (SFTS) virus, induces a characteristic thrombocytopenia with a mortality rate ranging from 12% to as high as 30%. The sero-prevalence of DBV in healthy people is not significantly different among age groups, but clinically diagnosed SFTS patients are older than ~50 years, suggesting that age is the critical risk factor for SFTS morbidity and mortality. Accordingly, our immune-competent ferret model demonstrates an age (4 years old)-dependent DBV infection and pathogenesis that fully recapitulates human clinical manifestation. To protect the aged population from DBV-induced SFTS, vaccine should carry robust immunogenicity with high safety profile. Previous studies have shown that glycoproteins Gn/Gc are the most effective antigens to induce both neutralizing antibody (NAb)- and T-cell-mediated immunity for full protection from DBV infection. Here, we report the development of a protein subunit vaccine with 24-mer self-assembling ferritin (FT) nanoparticle to present the DBV Gn head region (GnH) to enhance immunogenicity. Anion exchange chromatography and size exclusion chromatography readily purified the GnH-FT nanoparticles to homogeneity with structural integrity. Mice immunized with GnH-FT nanoparticles induced robust NAb response and T-cell immunity against DBV Gn. Furthermore, aged ferrets immunized with GnH-FT nanoparticles were fully protected from DBV challenge without SFTS symptoms such as body weight loss, thrombocytopenia, leukopenia, and fatality. This study demonstrates that DBV GnH-FT nanoparticles provide an efficient vaccine efficacy in mouse and aged ferret models and should be an outstanding vaccine candidate targeted for the aged population against fatal DBV infection. IMPORTANCE Dabie bandavirus (DBV) is an emerging tick-borne virus that causes severe fever with thrombocytopenia syndrome (SFTS) in infected patients. Human SFTS symptoms progress from fever, fatigue, and muscle pain to the depletion of white blood cells and platelets with fatality rates up to 30%. The recent spread of its vector tick to over 20 states in the United States increases the potential for outbreaks of the SFTS beyond the East Asia. Thus, the development of vaccine to control this rapidly emerging virus is a high priority. In this study, we applied self-assembling ferritin (FT) nanoparticle to enhance the immunogenicity of DBV Gn head domain (GnH) as a vaccine target. Mice immunized with the GnH-FT nanoparticle vaccine induced potent antibody responses and cellular immunity. Immunized aged ferrets were fully protected from the lethal challenge of DBV. Our study describes the GnH-FT nanoparticle vaccine candidate that provides protective immunity against the emerging DBV infection.

Published

2023

6. Multiple HA substitutions in highly pathogenic avian influenza H5Nx viruses contributed to the change in the NA subtype preference

Author

Khristine Joy C. Antigua, Yun Hee Baek, Won-Suk Choi, Ju Hwan Jeong, Eun-Ha Kim, Sol Oh, Sun-Woo Yoon, Changil Kim, Eung-Gook Kim, So-Young Choi, Seung Kon Hong, Young Ki Choi, and Min Suk Song

Subjects

Avian influenza, clade 2.3.4, H5Nx, antigenic drift, antigenic shift, functional balance, Infectious and parasitic diseases, RC109-216

Abstract

Novel highly pathogenic avian influenza (HPAI) H5Nx viruses are predominantly circulating worldwide, with an increasing potential threat of an outbreak in humans. It remains largely unknown how the stably maintained HPAI H5N1 suddenly altered its neuraminidase (NA) to other NA subtypes, which resulted in the emergence and evolution of H5Nx viruses. Here, we found that a combination of four specific amino acid (AA) substitutions (S123P-T156A-D183N- S223 R) in the hemagglutinin (HA) protein consistently observed in the H5Nx markedly altered the NA preference of H5N1 viruses. These molecular changes in H5N1 impaired its fitness, particularly viral growth and the functional activities of the HA and NA proteins. Among the AA substitutions identified, the T156A substitution, which contributed to the NA shift, also dramatically altered the antigenicity of H5N1 viruses, suggesting an occurrence of antigenic drift triggered by selective pressure. Our study shows the importance of how HA and NA complement each other and that antigenic drift in HA can potentially cause a shift in the NA protein in influenza A virus evolution.

Published

2022

7. SARS-CoV-2 variants with NSP12 P323L/G671S mutations display enhanced virus replication in ferret upper airways and higher transmissibility

Author

Se-Mi Kim, Eun-Ha Kim, Mark Anthony B. Casel, Young-Il Kim, Rong Sun, Mi-Jeong Kwak, Ji-Seung Yoo, Mina Yu, Kwang-Min Yu, Seung-Gyu Jang, Rare Rollon, Jeong Ho Choi, Juryeon Gil, Kiyoung Eun, Hyunggee Kim, Armin Ensser, Jungwon Hwang, Min-Suk Song, Myung Hee Kim, Jae U. Jung, and Young Ki Choi

Subjects

CP: Immunology, Biology (General), QH301-705.5

Abstract

Summary: With the emergence of multiple predominant SARS-CoV-2 variants, it becomes important to have a comprehensive assessment of their viral fitness and transmissibility. Here, we demonstrate that natural temperature differences between the upper (33°C) and lower (37°C) respiratory tract have profound effects on SARS-CoV-2 replication and transmissibility. Specifically, SARS-CoV-2 variants containing the NSP12 mutations P323L or P323L/G671S exhibit enhanced RNA-dependent RNA polymerase (RdRp) activity at 33°C compared with 37°C and high transmissibility. Molecular dynamics simulations and microscale thermophoresis demonstrate that the NSP12 P323L and P323L/G671S mutations stabilize the NSP12-NSP7-NSP8 complex through hydrophobic effects, leading to increased viral RdRp activity. Furthermore, competitive transmissibility assay reveals that reverse genetic (RG)-P323L or RG-P323L/G671S NSP12 outcompetes RG-WT (wild-type) NSP12 for replication in the upper respiratory tract, allowing markedly rapid transmissibility. This suggests that NSP12 P323L or P323L/G671S mutation of SARS-CoV-2 is associated with increased RdRp complex stability and enzymatic activity, promoting efficient transmissibility.

Published

2023

8. Rapid Spread of Severe Fever with Thrombocytopenia Syndrome Virus by Parthenogenetic Asian Longhorned Ticks

Author

Xing Zhang, Chaoyue Zhao, Chaoyuan Cheng, Guogang Zhang, Tao Yu, Kevin Lawrence, Hongyue Li, Jimin Sun, Zeyu Yang, Ling Ye, Hongliang Chu, Ying Wang, Xiaohu Han, Yongchao Jia, Shuozhang Fan, Hirotaka Kanuka, Tetsuya Tanaka, Cheryl Jenkins, Kristene Gedye, Shona Chandra, Dana C. Price, Qiyong Liu, Young Ki Choi, Xiangjiang Zhan, Zhibin Zhang, and Aihua Zheng

Subjects

severe fever with thrombocytopenia syndrome virus, SFTSV, severe fever with thrombocytopenia syndrome, SFTS, ticks, Asian longhorned ticks, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Severe fever with thrombocytopenia syndrome virus (SFTSV) is spreading rapidly in Asia. This virus is transmitted by the Asian longhorned tick (Haemaphysalis longicornis), which has parthenogenetically and sexually reproducing populations. Parthenogenetic populations were found in ≥15 provinces in China and strongly correlated with the distribution of severe fever with thrombocytopenia syndrome cases. However, distribution of these cases was poorly correlated with the distribution of populations of bisexual ticks. Phylogeographic analysis suggested that the parthenogenetic population spread much faster than bisexual population because colonization is independent of sexual reproduction. A higher proportion of parthenogenetic ticks was collected from migratory birds captured at an SFTSV-endemic area, implicating the contribution to the long-range movement of these ticks in China. The SFTSV susceptibility of parthenogenetic females was similar to that of bisexual females under laboratory conditions. These results suggest that parthenogenetic Asian longhorned ticks, probably transported by migratory birds, play a major role in the rapid spread of SFTSV.

Published

2022

9. Age-dependent pathogenic characteristics of SARS-CoV-2 infection in ferrets

Author

Young-Il Kim, Kwang-Min Yu, June-Young Koh, Eun-Ha Kim, Se-Mi Kim, Eun Ji Kim, Mark Anthony B. Casel, Rare Rollon, Seung-Gyu Jang, Min-Suk Song, Su-Jin Park, Hye Won Jeong, Eung-Gook Kim, Ok-Jun Lee, Yong-Dae Kim, Younho Choi, Shin-Ae Lee, Youn Jung Choi, Su-Hyung Park, Jae U. Jung, and Young Ki Choi

Subjects

Science

Abstract

Here, Kim et al. characterize SARS-CoV-2 infection in juvenile, young, and old aged ferrets to provide a further understanding of differences in COVID-19 severity in humans at different ages. Aged ferrets have higher viral loads, shed virus longer, and mimic the transcriptomic profile of severely infected patients.

Published

2022

10. Development of a Universal Cloning System for Reverse Genetics of Human Enteroviruses

Author

Won-Suk Choi, Sol Oh, Khristine Joy C. Antigua, Ju Hwan Jeong, Beom Kyu Kim, Yu Soo Yun, Da Hyeon Kang, Seong Cheol Min, Byung-Kwan Lim, Won Seop Kim, Ji-Hyuk Lee, Eung-Gook Kim, Young Ki Choi, Yun Hee Baek, and Min-Suk Song

Subjects

enterovirus, reverse genetics, infectious clone, universal cloning, universal RACE-PCR, Microbiology, QR1-502

Abstract

ABSTRACT Enteroviruses (EVs) have been associated with several human diseases. Due to their continuous emergence and divergence, EV species have generated more than 100 types and recombinant strains, increasing the public health threat caused by them. Hence, an efficient and universal cloning system for reverse genetics (RG) of highly divergent viruses is needed to understand the molecular mechanisms of viral pathology and evolution. In this study, we generated a versatile human EV whole-genome cDNA template by enhancing the template-switching method and designing universal primers capable of simultaneous cloning and rapid amplification of cDNA ends (RACE)-PCR of EVs. Moreover, by devising strategies to overcome limitations of previous cloning methods, we simplified significant cloning steps to be completed within a day. Of note, we successfully verified our efficient universal cloning system enabling RG of a broad range of human EVs, including EV-A (EV-A71), EV-B (CV-B5, ECHO6, and ECHO30), EV-C (CV-A24), and EV-D (EV-D68), with viral titers and phenotypes comparable to those of their wild types. This rapid and straightforward universal EV cloning strategy will help us elucidate molecular characteristics, pathogenesis, and applications of a broad range of EV serotypes for further development of genetic vaccines and delivery tools using various replication systems. IMPORTANCE Due to the broad spread, incidence, and genetic divergence of enteroviruses (EVs), it has been challenging to deal with this virus that causes severe human diseases, including aseptic meningitis, myocarditis, encephalitis, and poliomyelitis. Therefore, an efficient and universal cloning system for the reverse genetics of highly divergent EVs contributes to an understanding of the viral pathology and molecular mechanisms of evolution. We have simplified the important cloning steps, hereby enhancing the template-switching method and designing universal primers, which enable the important cloning steps to be completed in a day. We have also successfully demonstrated recovery of a broad range of human EVs, including EV-A to -D types, using this advanced universal cloning system. This rapid and robust universal EV cloning strategy will aid in elucidating the molecular characteristics, pathogenesis, and applications of a wide range of EVs for further development of genetic vaccines and antiviral screening using various replication systems.

Published

2023

11. Surface‒Aerosol Stability and Pathogenicity of Diverse Middle East Respiratory Syndrome Coronavirus Strains, 2012‒2018

Author

Neeltje van Doremalen, Michael Letko, Robert J. Fischer, Trenton Bushmaker, Jonathan Schulz, Claude K. Yinda, Stephanie N. Seifert, Nam Joong Kim, Maged G. Hemida, Ghazi Kayali, Wan Beom Park, Ranawaka A.P.M. Perera, Azaibi Tamin, Natalie J. Thornburg, Suxiang Tong, Krista Queen, Maria D. van Kerkhove, Young Ki Choi, Myoung-don Oh, Abdullah M. Assiri, Malik Peiris, Susan I. Gerber, and Vincent J. Munster

Subjects

Middle East respiratory syndrome coronavirus, MERS-CoV, coronavirus, viruses, severe acute respiratory syndrome coronavirus 2, SARS-CoV-2, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Middle East respiratory syndrome coronavirus (MERS-CoV) infects humans and dromedary camels and is responsible for an ongoing outbreak of severe respiratory illness in humans in the Middle East. Although some mutations found in camel-derived MERS-CoV strains have been characterized, most natural variation found across MERS-CoV isolates remains unstudied. We report on the environmental stability, replication kinetics, and pathogenicity of several diverse isolates of MERS-CoV, as well as isolates of severe acute respiratory syndrome coronavirus 2, to serve as a basis of comparison with other stability studies. Although most MERS-CoV isolates had similar stability and pathogenicity in our experiments, the camel-derived isolate C/KSA/13 had reduced surface stability, and another camel isolate, C/BF/15, had reduced pathogenicity in a small animal model. These results suggest that although betacoronaviruses might have similar environmental stability profiles, individual variation can influence this phenotype, underscoring the need for continual global viral surveillance.

Published

2021

12. Single-cell transcriptome of bronchoalveolar lavage fluid reveals sequential change of macrophages during SARS-CoV-2 infection in ferrets

Author

Jeong Seok Lee, June-Young Koh, Kijong Yi, Young-Il Kim, Su-Jin Park, Eun-Ha Kim, Se-Mi Kim, Sung Ho Park, Young Seok Ju, Young Ki Choi, and Su-Hyung Park

Subjects

Science

Abstract

A longitudinal analysis of SARS-CoV-2 infection in humans is challenging. Here the authors show a single cell RNA-sequencing analysis of BAL fluid cells from ferrets and characterise the time dependent recruitment of macrophage subsets to the lungs in response to SARS-CoV-2 infection.

Published

2021

13. A therapeutic neutralizing antibody targeting receptor binding domain of SARS-CoV-2 spike protein

Author

Cheolmin Kim, Dong-Kyun Ryu, Jihun Lee, Young-Il Kim, Ji-Min Seo, Yeon-Gil Kim, Jae-Hee Jeong, Minsoo Kim, Jong-In Kim, Pankyeom Kim, Jin Soo Bae, Eun Yeong Shim, Min Seob Lee, Man Su Kim, Hanmi Noh, Geun-Soo Park, Jae Sang Park, Dain Son, Yongjin An, Jeong No Lee, Ki-Sung Kwon, Joo-Yeon Lee, Hansaem Lee, Jeong-Sun Yang, Kyung-Chang Kim, Sung Soon Kim, Hye-Min Woo, Jun-Won Kim, Man-Seong Park, Kwang-Min Yu, Se-Mi Kim, Eun-Ha Kim, Su-Jin Park, Seong Tae Jeong, Chi Ho Yu, Youngjo Song, Se Hun Gu, Hanseul Oh, Bon-Sang Koo, Jung Joo Hong, Choong-Min Ryu, Wan Beom Park, Myoung-don Oh, Young Ki Choi, and Soo-Young Lee

Subjects

Science

Abstract

Therapies and vaccines for COVID-19, caused by the SARS-CoV-2 viral pandemic, are urgently needed. Here the authors establish and screen an antibody library from a convalescent COVID-19 patient to isolate a neutralizing antibody with the ability to reduce viral titer and alleviate symptoms in ferret, hamster, and rhesus monkey infection models.

Published

2021

14. Pathogenic assessment of avian influenza viruses in migratory birds

Author

Eun-Ha Kim, Young-ll Kim, Se Mi Kim, Kwang-Min Yu, Mark Anthony B. Casel, Seung-Gyu Jang, Philippe Noriel Q. Pascua, Richard J. Webby, and Young Ki Choi

Subjects

Avian influenza virus, wild birds, pathogenicity, transmission, receptor binding, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Several subtypes of avian influenza (AI) viruses have caused human infections in recent years; however, there is a severe knowledge gap regarding the capacity of wild bird viruses to infect mammals. To assess the risk of mammalian infection by AI viruses from their natural reservoirs, a panel of isolates from 34 wild birds was examined in animal models. All selected AI virus subtypes were found to predominantly possess Eurasian lineage, although reassortment with North American lineage AI viruses was also noted in some isolates. When used to infect chickens, 20 AI isolates could be recovered from oropharyngeal swabs at 5 days post-infection (dpi) without causing significant morbidity. Similarly, mild to no observable disease was observed in mice infected with these viruses although the majority replicated efficiently in murine lungs. As expected, wild bird AI isolates were found to recognize avian-like receptors, while a few strains also exhibited detectable human-like receptor binding. Selected strains were further tested in ferrets, and 15 out of 20 were found to shed the virus in the upper respiratory tract until 5 dpi. Overall, we demonstrate that a diversity of low-pathogenic AI viruses carried by wild migratory birds have the capacity to infect land-based poultry and mammalian hosts while causing minimal signs of clinical disease. This study reiterates that there is a significant capacity for interspecies transmission of AI viruses harboured by wild aquatic birds. Thus, these viruses pose a significant threat to human health underscoring the need for continued surveillance.

Published

2021

15. Critical role of neutralizing antibody for SARS-CoV-2 reinfection and transmission

Author

Young-Il Kim, Se-Mi Kim, Su-Jin Park, Eun-Ha Kim, Kwang-Min Yu, Jae-Hyung Chang, Eun Ji Kim, Mark Anthony B. Casel, Rare Rollon, Seung-Gyu Jang, Jihye Um, Min-Suk Song, Hye Won Jeong, Eung-Gook Kim, Yeonjae Kim, So Yeon Kim, Jun-Sun Park, Mi Sun Park, Geun-Yong Kwon, Sang Gu Yeo, Shin-Ae Lee, Youn Jung Choi, Jae U. Jung, and Young Ki Choi

Subjects

SARS-CoV-2, reinfection, COVID-19, neutralizing antibody, ferret model, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Cases of laboratory-confirmed SARS-CoV-2 reinfection have been reported in a number of countries. Further, the level of natural immunity induced by SARS-CoV-2 infection is not fully clear, nor is it clear if a primary infection is protective against reinfection. To investigate the potential association between serum antibody titres and reinfection of SARS-CoV-2, ferrets with different levels of NAb titres after primary SARS-CoV-2 infection were subjected to reinfection with a heterologous SARS-CoV-2 strain. All heterologous SARS-CoV-2 reinfected ferrets showed active virus replication in the upper respiratory and gastro-intestinal tracts. However, the high NAb titre group showed attenuated viral replication and rapid viral clearance. In addition, direct-contact transmission was observed only from reinfected ferrets with low NAb titres (

Published

2021

16. Viral Mimicry of Interleukin-17A by SARS-CoV-2 ORF8

Author

Xin Wu, Tian Xia, Woo-Jin Shin, Kwang-Min Yu, Wooram Jung, Alexandra Herrmann, Suan-Sin Foo, Weiqiang Chen, Pengfei Zhang, Jong-Soo Lee, Haryoung Poo, Suzy A. A. Comhair, Lara Jehi, Young Ki Choi, Armin Ensser, and Jae U. Jung

Subjects

COVID-19, viral IL-17, inflammation, Microbiology, QR1-502

Abstract

ABSTRACT Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection triggers cytokine-mediated inflammation, leading to a myriad of clinical presentations in COVID-19. The SARS-CoV-2 open reading frame 8 (ORF8) is a secreted and rapidly evolving glycoprotein. Patients infected with SARS-CoV-2 variants with ORF8 deleted are associated with mild disease outcomes, but the molecular mechanism behind this is unknown. Here, we report that SARS-CoV-2 ORF8 is a viral cytokine that is similar to but distinct from interleukin 17A (IL-17A) as it induces stronger and broader human IL-17 receptor (hIL-17R) signaling than IL-17A. ORF8 primarily targeted blood monocytes and induced the heterodimerization of hIL-17RA and hIL-17RC, triggering a robust inflammatory response. Transcriptome analysis revealed that besides its activation of the hIL-17R pathway, ORF8 upregulated gene expression for fibrosis signaling and coagulation dysregulation. A naturally occurring ORF8 L84S variant that was highly associated with mild COVID-19 showed reduced hIL-17RA binding and attenuated inflammatory responses. This study reveals how SARS-CoV-2 ORF8 by a viral mimicry of the IL-17 cytokine contributes to COVID-19 severe inflammation. IMPORTANCE Patients infected with SARS-CoV-2 variants lacking open reading frame 8 (ORF8) have been associated with milder infection and disease outcome, but the molecular mechanism behind how this viral accessory protein mediates disease pathogenesis is not yet known. In our study, we revealed that secreted ORF8 protein mimics host IL-17 to activate IL-17 receptors A and C (IL-17RA/C) and induces a significantly stronger inflammatory response than host IL-17A, providing molecular insights into the role of ORF8 in COVID-19 pathogenesis and serving as a potential therapeutic target.

Published

2022

17. Development of a reverse transcription-loop-mediated isothermal amplification as a rapid early-detection method for novel SARS-CoV-2

Author

Yun Hee Baek, Jihye Um, Khristine Joy C. Antigua, Ji-Hyun Park, Yeonjae Kim, Sol Oh, Young-il Kim, Won-Suk Choi, Seong Gyu Kim, Ju Hwan Jeong, Bum Sik Chin, Halcyon Dawn G. Nicolas, Ji-Young Ahn, Kyeong Seob Shin, Young Ki Choi, Jun-Sun Park, and Min-Suk Song

Subjects

SARS-CoV-2, COVID-19, reverse transcription-loop-mediated isothermal amplification, molecular diagnosis, colorimetric detection, novel coronavirus, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

ABSTRACTThe previous outbreaks of SARS-CoV and MERS-CoV have led researchers to study the role of diagnostics in impediment of further spread and transmission. With the recent emergence of the novel SARS-CoV-2, the availability of rapid, sensitive, and reliable diagnostic methods is essential for disease control. Hence, we have developed a reverse transcription loop-mediated isothermal amplification (RT-LAMP) assay for the specific detection of SARS-CoV-2. The primer sets for RT-LAMP assay were designed to target the nucleocapsid gene of the viral RNA, and displayed a detection limit of 102 RNA copies close to that of qRT-PCR. Notably, the assay has exhibited a rapid detection span of 30 min combined with the colorimetric visualization. This test can detect specifically viral RNAs of the SARS-CoV-2 with no cross-reactivity to related coronaviruses, such as HCoV-229E, HCoV-NL63, HCoV-OC43, and MERS-CoV as well as human infectious influenza viruses (type B, H1N1pdm, H3N2, H5N1, H5N6, H5N8, and H7N9), and other respiratory disease-causing viruses (RSVA, RSVB, ADV, PIV, MPV, and HRV). Furthermore, the developed RT-LAMP assay has been evaluated using specimens collected from COVID-19 patients that exhibited high agreement to the qRT-PCR. Our RT-LAMP assay is simple to perform, less expensive, time-efficient, and can be used in clinical laboratories for preliminary detection of SARS-CoV-2 in suspected patients. In addition to the high sensitivity and specificity, this isothermal amplification conjugated with a single-tube colorimetric detection method may contribute to the public health responses and disease control, especially in the areas with limited laboratory capacities.

Published

2020

18. Evaluation of global evolutionary variations in the early stage of SARS-CoV-2 pandemic

Author

Sanghyun Lee, Chi-Hwan Choi, Mi-Ran Yun, Dae-Won Kim, Sung Soon Kim, Young Ki Choi, and Young Sill Choi

Subjects

COVID-19, SARS-CoV-2, Evolution, Genetic variation, Phylogeny, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

To understand the origin of variants and their evolutionary history in the early stage of the COVID-19 pandemic, time-scaled phylogenetic and gene variation analyses were performed. The mutation patterns and evolution characteristics were examined using the Bayesian Evolutionary Analysis Sampling Trees (BEAST) with 349 whole-genome sequences available by March 2020. The results revealed five phylogenetic clusters (Groups A–E), with 408 nucleotide variants. The mutations including the deletion of three nucleotides underwent various and complicated changes in the whole genome over time, while some frequency or transient mutations were also observed. Phylogenetic analysis demonstrated that SARS-CoV-2 originated from China and was transmitted to other Asian countries, followed by North America and Europe. This study could help to comprehensively understand the evolutionary characteristics of SARS-CoV-2 with a special emphasis on its global variation patterns.

Published

2021

19. Development of a SFTSV DNA vaccine that confers complete protection against lethal infection in ferrets

Author

Jeong-Eun Kwak, Young-Il Kim, Su-Jin Park, Min-Ah Yu, Hyeok-Il Kwon, Sukyeong Eo, Tae-Shin Kim, Joon Seok, Won-Suk Choi, Ju Hwan Jeong, Hyojin Lee, Youngran Cho, Jin Ah Kwon, Moonsup Jeong, Joel N. Maslow, Yong-Eun Kim, Haili Jeon, Kee K. Kim, Eui-Cheol Shin, Min-Suk Song, Jae U. Jung, Young Ki Choi, and Su-Hyung Park

Subjects

Science

Abstract

Severe fever with thrombocytopenia syndrome virus (SFTSV) is an emerging tick-borne virus with no specific treatment or vaccine available. Here, the authors develop a DNA vaccine for SFTSV that is protective against lethal challenge in ferrets and show that anti-envelope antibodies are important for protection.

Published

2019

20. Rapid and simple colorimetric detection of multiple influenza viruses infecting humans using a reverse transcriptional loop-mediated isothermal amplification (RT-LAMP) diagnostic platform

Author

Su Jeong Ahn, Yun Hee Baek, Khristine Kaith S. Lloren, Won-Suk Choi, Ju Hwan Jeong, Khristine Joy C. Antigua, Hyeok-il Kwon, Su-Jin Park, Eun-Ha Kim, Young-il Kim, Young-Jae Si, Seung Bok Hong, Kyeong Seob Shin, Sungkun Chun, Young Ki Choi, and Min-Suk Song

Subjects

RT-LAMP, Seasonal influenza, Avian influenza, Multiplex detection, Colorimetric visualization, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background In addition to seasonal influenza viruses recently circulating in humans, avian influenza viruses (AIVs) of H5N1, H5N6 and H7N9 subtypes have also emerged and demonstrated human infection abilities with high mortality rates. Although influenza viral infections are usually diagnosed using viral isolation and serological/molecular analyses, the cost, accessibility, and availability of these methods may limit their utility in various settings. The objective of this study was to develop and optimized a multiplex detection system for most influenza viruses currently infecting humans. Methods We developed and optimized a multiplex detection system for most influenza viruses currently infecting humans including two type B (both Victoria lineages and Yamagata lineages), H1N1, H3N2, H5N1, H5N6, and H7N9 using Reverse Transcriptional Loop-mediated Isothermal Amplification (RT-LAMP) technology coupled with a one-pot colorimetric visualization system to facilitate direct determination of results without additional steps. We also evaluated this multiplex RT-LAMP for clinical use using a total of 135 clinical and spiked samples (91 influenza viruses and 44 other human infectious viruses). Results We achieved rapid detection of seasonal influenza viruses (H1N1, H3N2, and Type B) and avian influenza viruses (H5N1, H5N6, H5N8 and H7N9) within an hour. The assay could detect influenza viruses with high sensitivity (i.e., from 100 to 0.1 viral genome copies), comparable to conventional RT-PCR-based approaches which would typically take several hours and require expensive equipment. This assay was capable of specifically detecting each influenza virus (Type B, H1N1, H3N2, H5N1, H5N6, H5N8 and H7N9) without cross-reactivity with other subtypes of AIVs or other human infectious viruses. Furthermore, 91 clinical and spiked samples confirmed by qRT-PCR were also detected by this multiplex RT-LAMP with 98.9% agreement. It was more sensitive than one-step RT-PCR approach (92.3%). Conclusions Results of this study suggest that our multiplex RT-LAMP assay may provide a rapid, sensitive, cost-effective, and reliable diagnostic method for identifying recent influenza viruses infecting humans, especially in locations without access to large platforms or sophisticated equipment.

Published

2019

21. Development of Spike Receptor-Binding Domain Nanoparticles as a Vaccine Candidate against SARS-CoV-2 Infection in Ferrets

Author

Young-Il Kim, Dokyun Kim, Kwang-Min Yu, Hogyu David Seo, Shin-Ae Lee, Mark Anthony B. Casel, Seung-Gyu Jang, Stephanie Kim, WooRam Jung, Chih-Jen Lai, Young Ki Choi, and Jae U. Jung

Subjects

Microbiology, QR1-502

Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), a causative agent of the CoV disease 2019 (COVID-19) pandemic, enters host cells via the interaction of its receptor-binding domain (RBD) of the spike protein with host angiotensin-converting enzyme 2 (ACE2). Therefore, the RBD is a promising vaccine target to induce protective immunity against SARS-CoV-2 infection.

Published

2021

22. Molecular Signatures of Inflammatory Profile and B-Cell Function in Patients with Severe Fever with Thrombocytopenia Syndrome

Author

Angela Park, Su-Jin Park, Kyle L. Jung, Se Mi Kim, Eun-Ha Kim, Young-Il Kim, Suan-Sin Foo, Sunghyun Kim, Seong-Gyu Kim, Kwang-Min Yu, Younho Choi, Ji Yeun Kim, Yun Hee Baek, Min-Suk Song, Seung Ryul Kim, Seok-Yong Kim, Hye Won Jeong, Sung-Han Kim, Jae U. Jung, and Young Ki Choi

Subjects

Microbiology, QR1-502

Abstract

SFTSV is an emerging virus discovered in China in 2009; it has since spread to other countries in East Asia. Although the fatality rates of SFTSV infection range from 5.3% to as high as 27%, the mechanisms underlying clinical manifestations are largely unknown.

Published

2021

23. Infection Route Impacts the Pathogenesis of Severe Fever with Thrombocytopenia Syndrome Virus in Ferrets

Author

Su-Jin Park, Young-Il Kim, Mark Anthony Casel, Eun-Ha Kim, Se-Mi Kim, Kwang-Min Yu, Rare Rollon, Seung-Gyu Jang, Hye Won Jeong, and Young Ki Choi

Subjects

SFTSV, animal model, aged ferret, infection routes, Microbiology, QR1-502

Abstract

The threat of severe fever with thrombocytopenia syndrome (SFTS) to public health has been increasing due to the rapid spread of the ticks that carry the causative viral agent. The SFTS virus (SFTSV) was first identified in China and subsequently detected in neighboring countries, including South Korea, Japan, and Vietnam. In addition to the tick-mediated infection, human-to-human transmission has been recently reported with a high mortality rate; however, differential study of the pathogen has been limited by the route of infection. In this study, we investigated the pathogenic potential of SFTSV based on the infection route in aged ferrets, which show clinical signs similar to that of human infections. Ferrets inoculated with SFTSV via the intramuscular and subcutaneous routes show clinical signs comparable to those of severe human infections, with a mortality rate of 100%. Contrastingly, intravascularly infected ferrets exhibit a comparatively lower mortality rate of 25%, although their early clinical signs are similar to those observed following infection via the other routes. These results indicate that the infection route could influence the onset of SFTS symptoms and the pathogenicity of SFTSV. Thus, infection route should be considered in future studies on the pathogenesis of SFTSV infection.

Published

2022

24. Serologic Evaluation of Healthcare Workers Caring for COVID-19 Patients in the Republic of Korea

Author

Jae-Hoon Ko, Ji Yeon Lee, Hyun Ah Kim, Seung-Ji Kang, Jin Yang Baek, Su-Jin Park, Miri Hyun, Ik Joon Jo, Chi Ryang Chung, Yae-Jean Kim, Eun-Suk Kang, Young Ki Choi, Hyun-Ha Chang, Sook In Jung, and Kyong Ran Peck

Subjects

COVID-19, SARS-CoV-2, antibody, serology, healthcare worker, Microbiology, QR1-502

Abstract

The safety of healthcare workers (HCWs) against severe acute respiratory syndrome virus 2 (SARS-CoV-2) transmission is an important aspect of managing the coronavirus disease 2019 (COVID-19) pandemic. In the South Korea, highly stringent infection prevention and control (IPC) guidelines are implemented, and reports of healthcare-associated SARS-CoV-2 transmission among HCWs are limited. However, subclinical infections may have been missed by the current symptom-based screening strategy. To evaluate the risk of undetected SARS-CoV-2 transmissions from COVID-19 patients to HCWs, we conducted a multicenter seroprevalence study after the first surge of the COVID-19 outbreak. A total of 432 HCWs were evaluated, comprising 309 HCWs designated to laboratory-confirmed COVID-19 patient care and 123 non-designated HCWs. Designated HCWs wore personal protective equipment including an N95 respirator, eye protection, hooded overalls, shoe covers, and inner and outer gloves. Use of a powered air-purifying respirator was recommended for aerosol-generating procedures or long-duration care activities. A high-sensitivity (99.1%) fluorescence immunoassay immunoglobulin G (IgG) kit was used as the initial screening test, and two enzyme-linked immunosorbent assay kits for total and IgG antibodies were used to confirm the test results. A microneutralization test was additionally performed to evaluate the neutralizing activity of positive specimens. Among the evaluated HCWs, none of the non-designated HCWs had a positive result, while one of the HCWs designated for COVID-19 patient care (1/309, 0.3%) was seropositive for SARS-CoV-2 with confirmed neutralizing activity (1:40). This finding suggests that subclinical seroconversion may occur among HCWs caring for COVID-19 patients, although the risk is low under strict IPC guidance.

Published

2020

25. Antiviral Efficacies of FDA-Approved Drugs against SARS-CoV-2 Infection in Ferrets

Author

Su-Jin Park, Kwang-Min Yu, Young-Il Kim, Se-Mi Kim, Eun-Ha Kim, Seong-Gyu Kim, Eun Ji Kim, Mark Anthony B. Casel, Rare Rollon, Seung-Gyu Jang, Min-Hyeok Lee, Jae-Hyung Chang, Min-Suk Song, Hye Won Jeong, Younho Choi, Weiqiang Chen, Woo-Jin Shin, Jae U. Jung, and Young Ki Choi

Subjects

COVID-19, severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), antiviral therapeutics, immunosuppression, serum neutralization, ferrets, Microbiology, QR1-502

Abstract

ABSTRACT Due to the urgent need of a therapeutic treatment for coronavirus (CoV) disease 2019 (COVID-19) patients, a number of FDA-approved/repurposed drugs have been suggested as antiviral candidates at clinics, without sufficient information. Furthermore, there have been extensive debates over antiviral candidates for their effectiveness and safety against severe acute respiratory syndrome CoV 2 (SARS-CoV-2), suggesting that rapid preclinical animal studies are required to identify potential antiviral candidates for human trials. To this end, the antiviral efficacies of lopinavir-ritonavir, hydroxychloroquine sulfate, and emtricitabine-tenofovir for SARS-CoV-2 infection were assessed in the ferret infection model. While the lopinavir-ritonavir-, hydroxychloroquine sulfate-, or emtricitabine-tenofovir-treated group exhibited lower overall clinical scores than the phosphate-buffered saline (PBS)-treated control group, the virus titers in nasal washes, stool specimens, and respiratory tissues were similar between all three antiviral-candidate-treated groups and the PBS-treated control group. Only the emtricitabine-tenofovir-treated group showed lower virus titers in nasal washes at 8 days postinfection (dpi) than the PBS-treated control group. To further explore the effect of immune suppression on viral infection and clinical outcome, ferrets were treated with azathioprine, an immunosuppressive drug. Compared to the PBS-treated control group, azathioprine-immunosuppressed ferrets exhibited a longer period of clinical illness, higher virus titers in nasal turbinate, delayed virus clearance, and significantly lower serum neutralization (SN) antibody titers. Taken together, all antiviral drugs tested marginally reduced the overall clinical scores of infected ferrets but did not significantly affect in vivo virus titers. Despite the potential discrepancy of drug efficacies between animals and humans, these preclinical ferret data should be highly informative to future therapeutic treatment of COVID-19 patients. IMPORTANCE The SARS-CoV-2 pandemic continues to spread worldwide, with rapidly increasing numbers of mortalities, placing increasing strain on health care systems. Despite serious public health concerns, no effective vaccines or therapeutics have been approved by regulatory agencies. In this study, we tested the FDA-approved drugs lopinavir-ritonavir, hydroxychloroquine sulfate, and emtricitabine-tenofovir against SARS-CoV-2 infection in a highly susceptible ferret infection model. While most of the drug treatments marginally reduced clinical symptoms, they did not reduce virus titers, with the exception of emtricitabine-tenofovir treatment, which led to diminished virus titers in nasal washes at 8 dpi. Further, the azathioprine-treated immunosuppressed ferrets showed delayed virus clearance and low SN titers, resulting in a prolonged infection. As several FDA-approved or repurposed drugs are being tested as antiviral candidates at clinics without sufficient information, rapid preclinical animal studies should proceed to identify therapeutic drug candidates with strong antiviral potential and high safety prior to a human efficacy trial.

Published

2020

26. Altered virulence of Highly Pathogenic Avian Influenza (HPAI) H5N8 reassortant viruses in mammalian models

Author

Su-Jin Park, Eun-Ha Kim, Hyeok-Il Kwon, Min-Suk Song, Se Mi Kim, Young-Il Kim, Young-Jae Si, In-Won Lee, Hiep Dinh Nguyen, Ok Sarah Shin, Chul-Joong Kim, and Young Ki Choi

Subjects

H5N8, HPAI influenza virus, PB2, reassortment, virulence, Infectious and parasitic diseases, RC109-216

Abstract

Recently identified highly pathogenic avian influenza (HPAI) H5N8 viruses (clade 2.3.4.4) are relatively low to moderately pathogenic in mammalian hosts compared with HPAI H5N1 viruses. In this study, we generated reassortant viruses comprised of A/MD/Korea/W452/2014(H5N8) with substitution of individual genes from A/EM/Korea/W149/2006(H5N1) to understand the contribution of each viral gene to virulence in mammals. Substituting the PB2 gene segment or the NA gene segment of the H5N8 virus by that from the H5N1 virus resulted in significantly enhanced pathogenicity compared with the parental H5N8 virus in mice. Of note, substitution of the PB2 gene segment of the H5N8 virus by that from the H5N1 virus resulted in a 1000-fold increase in virulence for mice compared with the parental virus (MLD50 decreased from 105.8 to 102.5 EID50). Further, the W452W149PB2 virus also induced the highest virus titers in lungs at all time points and the highest levels of inflammatory cytokine responses among all viruses tested. This high virulence phenotype was also confirmed by high viral titers in the respiratory tracts of infected ferrets. Further, a mini-genome assay revealed that W452W149PB2 has significantly increased polymerase activity (p < 0.001). Taken together, our study demonstrates that a single gene substitution from other avian influenza viruses can alter the pathogenicity of recent H5N8 viruses, and therefore emphasizes the need for intensive monitoring of reassortment events among co-circulating avian and mammalian viruses.

Published

2018

27. Correction to: Rapid and simple colorimetric detection of multiple influenza viruses infecting humans using a reverse transcriptional loopmediated isothermal amplification (RT-LAMP) diagnostic platform

Author

Su Jeong Ahn, Yun Hee Baek, Khristine Kaith S. Lloren, Won-Suk Choi, Ju Hwan Jeong, Khristine Joy C. Antigua, Hyeok-il Kwon, Su-Jin Park, Eun-Ha Kim, Young-il Kim, Young-Jae Si, Seung Bok Hong, Kyeong Seob Shin, Sungkun Chun, Young Ki Choi, and Min-Suk Song

Subjects

Infectious and parasitic diseases, RC109-216

Abstract

An amendment to this paper has been published and can be accessed via the original article.

Published

2020

28. A Novel Neuraminidase-Dependent Hemagglutinin Cleavage Mechanism Enables the Systemic Spread of an H7N6 Avian Influenza Virus

Author

Hyeok-il Kwon, Young-Il Kim, Su-Jin Park, Eun-Ha Kim, Semi Kim, Young-Jae Si, Min-Suk Song, Philippe Noriel Q. Pascua, Elena A. Govorkova, Robert G. Webster, Richard J. Webby, and Young Ki Choi

Subjects

H7, N6 neuraminidase, thrombin-like protease, GRG motif, trypsin-independent growth, influenza, Microbiology, QR1-502

Abstract

ABSTRACT In this study, we demonstrate a novel mechanism for hemagglutinin (HA) activation in a naturally occurring H7N6 avian influenza A virus strain, A/mallard duck/Korea/6L/2007 (A/Mdk/6L/07). This novel mechanism allows for systemic infection of chickens, ducks, and mice, and A/Mdk/6L/07 can replicate in vitro without exogenous trypsin and exhibits broad tissue tropism in animals despite the presence of a monobasic HA cleavage motif (PEIPKGR/G). The trypsin-independent growth phenotype requires the N6 neuraminidase and the specific recognition of glycine at the P2 position of the HA cleavage motif by a thrombin-like protease. Correspondingly, viral growth is significantly attenuated by the addition of a thrombin-like protease inhibitor (argatroban). These data provide evidence for a previously unrecognized virus replication mechanism and support the hypothesis that thrombin-mediated HA cleavage is an important virulence marker and potential therapeutic target for H7 influenza viruses. IMPORTANCE The identification of virulence markers in influenza viruses underpins risk assessment programs and the development of novel therapeutics. The cleavage of the influenza virus HA is a required step in the viral life cycle, and phenotypic differences in viruses can be caused by changes in this process. Here, we describe a novel mechanism for HA cleavage in an H7N6 influenza virus isolated from a mallard duck. The mechanism requires the N6 protein and full activity of thrombin-like proteases and allows the virus to cause systemic infection in chickens, ducks, and mice. The thrombin-mediated cleavage of HA is thus a novel virulence determinant of avian influenza viruses.

Published

2019

29. Peptide Nucleic Acid (PNA)-Enhanced Specificity of a Dual-Target Real-Time Quantitative Polymerase Chain Reaction (RT-qPCR) Assay for the Detection and Differentiation of SARS-CoV-2 from Related Viruses

Author

Won-Suk Choi, Ju Hwan Jeong, Halcyon Dawn G. Nicolas, Sol Oh, Khristine Joy C. Antigua, Ji-Hyun Park, Beomkyu Kim, Sun-Woo Yoon, Kyeong Seob Shin, Young Ki Choi, Yun Hee Baek, and Min-Suk Song

Subjects

SARS-CoV-2, SARS related-CoV, PNA, RT-qPCR, dual-target detection, Medicine (General), R5-920

Abstract

The threat posed by coronaviruses to human health has necessitated the development of a highly specific and sensitive viral detection method that could differentiate between the currently circulating severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and other SARS-related coronaviruses (SARSr-CoVs). In this study, we developed a peptide nucleic acid (PNA)-based real-time quantitative polymerase chain reaction (RT-qPCR) assay targeting the N gene to efficiently discriminate SARS-CoV-2 from other SARSr-CoVs in human clinical samples. Without compromising the sensitivity, this method significantly enhanced the specificity of SARS-CoV-2 detection by 100-fold as compared to conventional RT-qPCR. In addition, we designed an RT-qPCR method for the sensitive and universal detection of ORF3ab-E genes of SARSr-CoV with a limit of detection (LOD) of 3.3 RNA copies per microliter. Thus, the developed assay serves as a confirmative dual-target detection method. Our PNA-mediated dual-target RT-qPCR assay can detect clinical SARS-CoV-2 samples in the range of 18.10–35.19 Ct values with an 82.6–100% detection rate. Furthermore, our assay showed no cross-reactions with other coronaviruses such as human coronaviruses (229E, NL63, and OC43) and Middle East respiratory syndrome coronavirus, influenza viruses (Type B, H1N1, H3N2, HPAI H5Nx, and H7N9), and other respiratory disease-causing viruses (MPV, RSV A, RSV B, PIV, AdV, and HRV). We, thus, developed a PNA-based RT-qPCR assay that differentiates emerging pathogens such as SARS-CoV-2 from closely related viruses such as SARSr-CoV and allows diagnosis of infections related to already identified or new coronavirus strains.

Published

2020

30. Enhanced neutralizing antibody response induced by inactivated enterovirus 71 in cynomolgus monkeys.

Author

Hyun Ju In, Heeji Lim, Jung-Ah Lee, Sang-Rae Lee, Yeung Bae Jin, Kang-Jin Jeong, Ji-Yeon Hyeon, Jung Sik Yoo, June-Woo Lee, Young Ki Choi, and Sang-Won Lee

Subjects

Medicine, Science

Abstract

Enterovirus 71 (EV71) is a major etiological agent of various public health issues, particularly in the Asia-Pacific region. EV71 causes hand-foot-and-mouth disease (HFMD) and is associated with serious neurological disorders in young children. A formalin-inactivated EV71 candidate vaccine (KCDC-HFMDV1-EV71) based on the C4 subgenotype was previously developed and confirmed to be a potential candidate vaccine for prevention of EV71 infection in mice. In this study, an inactivated EV71 vaccine was used for analysis of long-term immunogenicity and efficacy in cynomolgus monkeys, a common nonhuman primate model. The vaccine was immunized three times at 0, 4, and 8 weeks with either 20-μg doses of EV71 candidate vaccine formulated with aluminum hydroxide gel adjuvant or phosphate-buffered saline as a control. The group immunized with the inactivated EV71 showed significantly increased EV71-specific antibody and serum neutralizing antibody titers at 3 weeks after vaccination and maintained these elevated titers until the end of the experiment (54 weeks after vaccination). The sera from vaccinated cynomolgus monkeys showed a crossreactive neutralizing antibody response to the heterologous subtype of EV71 (B1-4, C1, and C2). These findings suggest that the inactivated EV71 candidate vaccine may be a potential vaccine candidate and valuable tool for the control of HFMD.

Published

2018

31. An inactivated hand-foot-and-mouth disease vaccine using the enterovirus 71 (C4a) strain isolated from a Korean patient induces a strong immunogenic response in mice.

Author

Hyun Ju In, Heeji Lim, Jung-Ah Lee, Hye Jin Kim, Jin-Won Kim, Ji-Yeon Hyeon, Sang-Gu Yeo, June-Woo Lee, Jung Sik Yoo, Young Ki Choi, and Sang-Won Lee

Subjects

Medicine, Science

Abstract

Enterovirus 71 (EV71) is a major causative agent of hand-foot-and-mouth disease (HFMD) frequently occurring in children. HFMD induced by EV71 can cause serious health problems and has been reported worldwide, particularly in the Asia-Pacific region. In this study, we assessed the immunogenicity of a formalin-inactivated HFMD vaccine using an EV71 strain (FI-EV71 C4a) isolated from a Korean patient. The vaccine candidate was evaluated in mice to determine the vaccination doses and vaccine schedules. BALB/c mice were intramuscularly administered 5, 10, or 20 μg FI-EV71 vaccine, followed by a booster 2 weeks later. EV71-specific antibodies and neutralizing antibodies were induced and maintained until the end of the experimental period in all vaccinated groups. To determine the effectiveness of adjuvant for the EV71 vaccine, three adjuvants, i.e., aluminium hydroxide gel, monophosphoryl lipid A, and polyinosinic-polycytidylic acid, were administered separately with the FI-EV71 vaccine to mice via the intramuscular route. Mice administered the FI-EV71 vaccine formulated with all three adjuvants induced a significantly increased antibody response compared with that of the single adjuvant groups. The vaccinated group with triple adjuvants exhibited more rapid induction of EV71-specific and neutralizing antibodies than the other groups. These results suggested that the role of adjuvant in inactivated vaccine was important for eliciting effective immune responses against EV71. In conclusion, our results showed that FI-EV71 was a potential candidate vaccine for prevention of EV71 infection.

Published

2017

32. Pathobiological features of a novel, highly pathogenic avian influenza A(H5N8) virus

Author

Young-Il Kim, Philippe Noriel Q Pascua, Hyeok-Il Kwon, Gyo-Jin Lim, Eun-Ha Kim, Sun-Woo Yoon, Su-Jin Park, Se Mi Kim, Eun-Ji Choi, Young-Jae Si, Ok-Jun Lee, Woo-Sub Shim, Si-Wook Kim, In-Pil Mo, Yeonji Bae, Yong Taik Lim, Moon Hee Sung, Chul-Joong Kim, Richard J Webby, Robert G Webster, and Young Ki Choi

Subjects

avian influenza virus, genetic evolution, HPAI A(H5N8), migratory waterfowl, reassortment, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

The endemicity of highly pathogenic avian influenza (HPAI) A(H5N1) viruses in Asia has led to the generation of reassortant H5 strains with novel gene constellations. A newly emerged HPAI A(H5N8) virus caused poultry outbreaks in the Republic of Korea in 2014. Because newly emerging high-pathogenicity H5 viruses continue to pose public health risks, it is imperative that their pathobiological properties be examined. Here, we characterized A/mallard duck/Korea/W452/2014 (MDk/W452(H5N8)), a representative virus, and evaluated its pathogenic and pandemic potential in various animal models. We found that MDk/W452(H5N8), which originated from the reassortment of wild bird viruses harbored by migratory waterfowl in eastern China, replicated systemically and was lethal in chickens, but appeared to be attenuated, albeit efficiently transmitted, in ducks. Despite predominant attachment to avian-like virus receptors, MDk/W452(H5N8) also exhibited detectable human virus-like receptor binding and replicated in human respiratory tract tissues. In mice, MDk/W452(H5N8) was moderately pathogenic and had limited tissue tropism relative to previous HPAI A(H5N1) viruses. It also induced moderate nasal wash titers in inoculated ferrets; additionally, it was recovered in extrapulmonary tissues and one of three direct-contact ferrets seroconverted without shedding. Moreover, domesticated cats appeared to be more susceptible than dogs to virus infection. With their potential to become established in ducks, continued circulation of A(H5N8) viruses could alter the genetic evolution of pre-existing avian poultry strains. Overall, detailed virological investigation remains a necessity given the capacity of H5 viruses to evolve to cause human illness with few changes in the viral genome.

Published

2014

33. Novel Highly Pathogenic Avian A(H5N2) and A(H5N8) Influenza Viruses of Clade 2.3.4.4 from North America Have Limited Capacity for Replication and Transmission in Mammals

Author

Bryan S. Kaplan, Marion Russier, Trushar Jeevan, Bindumadhav Marathe, Elena A. Govorkova, Charles J. Russell, Mia Kim-Torchetti, Young Ki Choi, Ian Brown, Takehiko Saito, David E. Stallknecht, Scott Krauss, and Richard J. Webby

Subjects

avian influenza virus, H5N2, H5N8, mammals, viral replication, Microbiology, QR1-502

Abstract

ABSTRACT Highly pathogenic influenza A(H5N8) viruses from clade 2.3.4.4 were introduced to North America by migratory birds in the fall of 2014. Reassortment of A(H5N8) viruses with avian viruses of North American lineage resulted in the generation of novel A(H5N2) viruses with novel genotypes. Through sequencing of recent avian influenza viruses, we identified PB1 and NP gene segments very similar to those in the viruses isolated from North American waterfowl prior to the introduction of A(H5N8) to North America, highlighting these bird species in the origin of reassortant A(H5N2) viruses. While they were highly virulent and transmissible in poultry, we found A(H5N2) viruses to be low pathogenic in mice and ferrets, and replication was limited in both hosts compared with those of recent highly pathogenic avian influenza (HPAI) H5N1 viruses. Molecular characterization of the hemagglutinin protein from A(H5N2) viruses showed that the receptor binding preference, cleavage, and pH of activation were highly adapted for replication in avian species and similar to those of other 2.3.4.4 viruses. In addition, North American and Eurasian clade 2.3.4.4 H5NX viruses replicated to significantly lower titers in differentiated normal human bronchial epithelial cells than did seasonal human A(H1N1) and highly pathogenic A(H5N1) viruses isolated from a human case. Thus, despite their having a high impact on poultry, our findings suggest that the recently emerging North American A(H5N2) viruses are not expected to pose a substantial threat to humans and other mammals without further reassortment and/or adaptation and that reassortment with North American viruses has not had a major impact on viral phenotype. IMPORTANCE Highly pathogenic H5 influenza viruses have been introduced into North America from Asia, causing extensive morbidity and mortality in domestic poultry. The introduced viruses have reassorted with North American avian influenza viruses, generating viral genotypes not seen on other continents. The experiments and analyses presented here were designed to assess the impact of this genetic diversification on viral phenotypes, particularly as regards mammalian hosts, by comparing the North American viruses with their Eurasian precursor viruses.

Published

2016

34. Sublingual immunization with M2-based vaccine induces broad protective immunity against influenza.

Author

Byoung-Shik Shim, Young Ki Choi, Cheol-Heui Yun, Eu-Gene Lee, Yoon Seong Jeon, Sung-Moo Park, In Su Cheon, Dong-Hyun Joo, Chung Hwan Cho, Min-Suk Song, Sang-Uk Seo, Young-Ho Byun, Hae-Jung Park, Haryoung Poo, Baik Lin Seong, Jae Ouk Kim, Huan Huu Nguyen, Konrad Stadler, Dong Wook Kim, Kee-Jong Hong, Cecil Czerkinsky, and Man Ki Song

Subjects

Medicine, Science

Abstract

BackgroundThe ectodomain of matrix protein 2 (M2e) of influenza A virus is a rationale target antigen candidate for the development of a universal vaccine against influenza as M2e undergoes little sequence variation amongst human influenza A strains. Vaccine-induced M2e-specific antibodies (Abs) have been shown to display significant cross-protective activity in animal models. M2e-based vaccine constructs have been shown to be more protective when administered by the intranasal (i.n.) route than after parenteral injection. However, i.n. administration of vaccines poses rare but serious safety issues associated with retrograde passage of inhaled antigens and adjuvants through the olfactory epithelium. In this study, we examined whether the sublingual (s.l.) route could serve as a safe and effective alternative mucosal delivery route for administering a prototype M2e-based vaccine. The mechanism whereby s.l. immunization with M2e vaccine candidate induces broad protection against infection with different influenza virus subtypes was explored.Methods and resultsA recombinant M2 protein with three tandem copies of the M2e (3M2eC) was expressed in Escherichia coli. Parenteral immunizations of mice with 3M2eC induced high levels of M2e-specific serum Abs but failed to provide complete protection against lethal challenge with influenza virus. In contrast, s.l. immunization with 3M2eC was superior for inducing protection in mice. In the latter animals, protection was associated with specific Ab responses in the lungs.ConclusionsThe results demonstrate that s.l. immunization with 3M2eC vaccine induced airway mucosal immune responses along with broad cross-protective immunity to influenza. These findings may contribute to the understanding of the M2-based vaccine approach to control epidemic and pandemic influenza infections.

Published

2011

35. Evaluation of the efficacy and cross-protectivity of recent human and swine vaccines against the pandemic (H1N1) 2009 virus infection.

Author

Philippe Noriel Q Pascua, Min-Suk Song, Jun Han Lee, Kuk Jin Park, Hyeok-Il Kwon, Yun Hee Baek, Seung-Pyo Hong, Jong-Bok Rho, Chul-Joong Kim, Haryoung Poo, Thomas S Ryoo, Moon-Hee Sung, and Young Ki Choi

Subjects

Medicine, Science

Abstract

The current pandemic (H1N1) 2009 virus remains transmissible among humans worldwide with cases of reverse zoonosis, providing opportunities to produce more pathogenic variants which could pose greater human health concerns. To investigate whether recent seasonal human or swine H1N1 vaccines could induce cross-reactive immune responses against infection with the pandemic (H1N1) 2009 virus, mice, ferrets or mini-pigs were administered with various regimens (once or twice) and antigen content (1.77, 3.5 or 7.5 microg HA) of a-Brsibane/59/07, a-CAN01/04 or RgCA/04/09xPR8 vaccine. Receipt of a-CAN01/04 (2-doses) but not a-Brisbane/59/07 induced detectable but modest (20-40 units) cross-reactive serum antibody against CA/04/09 by hemagglutinin inhibition (HI) assays in mice. Only double administration (7.5 microg HA) of both vaccine in ferrets could elicit cross-reactivity (30-60 HI titers). Similar antigen content of a-CAN01/04 in mini-pigs also caused a modest approximately 30 HI titers (twice vaccinated). However, vaccine-induced antibody titers could not suppress active virus replication in the lungs (mice) or virus shedding (ferrets and pigs) of immunized hosts intranasally challenged with CA/04/09. Furthermore, neither ferrets nor swine could abrogate aerosol transmission of the virus into naïve contact animals. Altogether, these results suggest that neither recent human nor animal H1N1 vaccine could provide complete protectivity in all animal models. Thus, this study warrants the need for strain-specific vaccines that could yield the optimal protection desired for humans and/or animals.

Published

2009

36. Mammalian adaptation risk in HPAI H5N8: a comprehensive model bridging experimental data with mathematical insights.

Author

Chokkakula, Santosh, Sol Oh, Won-Suk Choi, Chang Il Kim, Ju Hwan Jeong, Beom Kyu Kim, Ji- Hyun Park, Seong Cheol Min, Eung-Gook Kim, Yun Hee Baek, Young Ki Choi, and Min-Suk Song

Published

2024

37. Impact of Imperfect Spectrum Sensing on Hybrid Backscatter Assisted Cognitive Wireless Powered Radio Networks.

Author

Young Ki Choi, Su Min Kim, and Junsu Kim

Published

2019

38. Neutralization Testing-based Immunogenicity Analysis of Recent Prevalent Severe Acute Respiratory Syndrome Coronavirus 2 Omicron Sublineages.

Author

Eun Ju Lee, Hyeokjin Lee, Sang Won O, Jee Eun Rhee, Jeong-Min Kim, Dong Ju Kim, Il-Hwan Kim, Jin Sun No, Ae Kyung Park, Jeong-Ah Kim, Chae Young Lee, Young-Ki Choi, and Eun-Jin Kim

Abstract

Although WHO declared the end of the public health emergency for coronavirus disease 2019 (COVID-19) caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), XBB lineages continue to evolve and emerge globally. In particular, XBB.1.5 and XBB.1.16 are raising concerns because of their high immune evasion, leading to apprehensions regarding vaccine efficacy reduction and potential reinfection. We aimed to investigate the COVID-19 outbreak in Korea and predict the likelihood of reinfection by testing neutralizing activity against live viruses from the S clade and 19 Omicron sublineages. We found a significant risk of infection with the currently prevalent XBB lineage for individuals who were either vaccinated early or infected during the initial Omicron outbreak. Vaccinated individuals were better equipped than unvaccinated individuals to produce neutralizing antibodies for other SARS-CoV-2 variants upon infection. Therefore, unvaccinated individuals do not easily develop neutralizing activity against other variants and face the highest risk of reinfection by the XBB lineage. Our study provides important information to facilitate the development of strategies for monitoring populations that would be the most susceptible to new COVID-19 outbreaks. [ABSTRACT FROM AUTHOR]

Published

2024

39. A Rapid Method for Generating Infectious SARS-CoV-2 and Variants Using Mutagenesis and Circular Polymerase Extension Cloning

Author

Beom Kyu Kim, Won-Suk Choi, Ju Hwan Jeong, Sol Oh, Ji-Hyun Park, Yu Soo Yun, Seong Cheol Min, Da Hyeon Kang, Eung-Gook Kim, Hojin Ryu, Hye Kwon Kim, Yun Hee Baek, Young Ki Choi, and Min-Suk Song

Subjects

Microbiology (medical), Infectious Diseases, General Immunology and Microbiology, Ecology, Physiology, Genetics, Cell Biology

Abstract

Since the first emergence of the SARS-CoV-2 variant in late 2020, novel variants have been continuously introduced to the human population, causing severe public health threats. In general, because these variants acquire new genetic mutation/s, it is critical to analyze the biological function of viruses that such mutations can confer.

Published

2023

40. Transmissibility and pathogenicity of SARS-CoV-2 variants in animal models

Author

Young-Il, Kim, Mark Anthony B, Casel, and Young Ki, Choi

Subjects

Disease Models, Animal, Mice, COVID-19 Vaccines, Virulence, SARS-CoV-2, Ferrets, Animals, COVID-19, Humans, General Medicine, Applied Microbiology and Biotechnology, Microbiology

Abstract

As of February 2022, SARS-CoV-2 is still one of the most serious public health threats due to its high mortality rate and rapid spread of novel variants. Since the first outbreak in 2019, general understanding of SARS-CoV-2 has been improved through basic and clinical studies; however, knowledge gaps still exist in our understanding of the emerging novel SARSCoV-2 variants, which impacts the corresponding development of vaccines and therapeutics. Especially, accumulation of mutations in SARS-CoV-2 and rapid spread in populations with previous immunity has resulted in selection of variants that evade the host immune response. This phenomenon threatens to render current SARS-CoV-2 vaccines ineffective for controlling the pandemic. Proper animal models are essential for detailed investigations into the viral etiology, transmission and pathogenesis mechanisms, as well as evaluation of the efficacy of vaccine candidates against recent SARS-CoV-2 variants. Further, the choice of animal model for each research topic is important for researchers to gain better knowledge of recent SARS-CoV-2 variants. Here, we review the advantages and limitations of each animal model, including mice, hamsters, ferrets, and non-human primates, to elucidate variant SARS-CoV-2 etiology and transmission and to evaluate therapeutic and vaccine efficacy.

Published

2022

41. Data from Direct Transcriptional Activation of Promyelocytic Leukemia Protein by IFN Regulatory Factor 3 Induces the p53-Dependent Growth Inhibition of Cancer Cells

Author

Hyunggee Kim, Lynda Chin, Ronald A. DePinho, Jang-Bo Lee, Yong Gu Chung, Seungkwon You, Young-Ki Choi, Eun ho Lee, Tae-Hoon Lee, Yun-Jaie Choi, Xun Jin, Se-Yeong Oh, Joong-Seob Lee, and Tae-Kyung Kim

Abstract

IFN regulatory factor 3 (IRF3) is a transcriptional factor that plays a crucial role in activation of innate immunity and inflammation in response to viral infection, and is also involved in p53-dependent inhibition of cell growth. Although functional activation of IRF3 by viral infection is relatively well documented, the biological role and regulatory mechanism underlying cell growth inhibition by IRF3 are poorly understood. Here, we show a novel regulatory pathway connecting IRF3-promyelocytic leukemia protein (PML)-p53 in primary and cancer cell lines. Overexpression of IRF3 induces p53-dependent cell growth inhibition in cancer cell lines with normal p53 activity. In addition, doxycycline-induced expression of IRF3 in U87MG cells inhibits tumor growth in nude mice in vivo. IRF3 is found to increase expression of PML by a direct transcriptional activation as determined by PML-promoter-luciferase and chromatin immunoprecipitation assays. When PML is depleted by RNA interference–mediated knockdown, IRF3 fails to increase p53 acetylation and its transcriptional activity. Taken together, the results of the present study indicate that direct transcriptional activation of PML by IRF3 results in the p53-dependent growth inhibition of normal and cancer cells in vitro and in vivo, which is suggestive of a novel regulatory network between the innate immune response and tumor suppression. [Cancer Res 2007;67(23):11133–40]

Published

2023

42. Supplementary Figures 1-4 from Direct Transcriptional Activation of Promyelocytic Leukemia Protein by IFN Regulatory Factor 3 Induces the p53-Dependent Growth Inhibition of Cancer Cells

Author

Hyunggee Kim, Lynda Chin, Ronald A. DePinho, Jang-Bo Lee, Yong Gu Chung, Seungkwon You, Young-Ki Choi, Eun ho Lee, Tae-Hoon Lee, Yun-Jaie Choi, Xun Jin, Se-Yeong Oh, Joong-Seob Lee, and Tae-Kyung Kim

Abstract

Supplementary Figures 1-4 from Direct Transcriptional Activation of Promyelocytic Leukemia Protein by IFN Regulatory Factor 3 Induces the p53-Dependent Growth Inhibition of Cancer Cells

Published

2023

43. A NUMERICAL STUDY FOR THE EFFECT OF DROP BREAKUP ON THE SPRAY CHARACTERISTICS

Author

H.C. Yang, Young Ki Choi, Hong Sun Ryou, and K.B. Hong

Published

2023

44. A NUMERICAL SIMULATION OF UNSTEADY AXISYMMETRIC TURBULENT FLOW IN A RECIPROCATING ENGINE INCLUDING PORT/VALVE ASSEMBLY

Author

J. H. Cho, Hong Sun Ryou, and Young Ki Choi

Published

2023

45. Current situation and control strategies of H9N2 avian influenza in South Korea

Author

Mingeun Sagong, Kwang-Nyeong Lee, Eun-Kyoung Lee, Hyunmi Kang, Young Ki Choi, and Youn-Jeong Lee

Subjects

General Veterinary

Abstract

The H9N2 avian influenza (AI) has become endemic in poultry in many countries since the 1990s, which has caused considerable economic losses in the poultry industry. Considering the long history of the low pathogenicity H9N2 AI in many countries, once H9N2 AI is introduced, it is more difficult to eradicate than high pathogenicity AI. Various preventive measures and strategies, including vaccination and active national surveillance, have been used to control the Y439 lineage of H9N2 AI in South Korea, but it took a long time for the H9N2 virus to disappear from the fields. By contrast, the novel Y280 lineage of H9N2 AI was introduced in June 2020 and has spread nationwide. This study reviews the history, genetic and pathogenic characteristics, and control strategies for Korean H9N2 AI. This review may provide some clues for establishing control strategies for endemic AIV and a newly introduced Y280 lineage of H9N2 AI in South Korea.

Published

2023

46. RNF166 plays a dual role for Lys63-linked ubiquitination and sumoylation of its target proteins

Author

Young J. Oh, Young Ki Choi, Chang-ki Oh, Nuri Yun, and Ih-Yeon Hwang

Subjects

biology, Chemistry, Lysine, HEK 293 cells, SUMO protein, Inhibitor of apoptosis, Cell biology, Ubiquitin ligase, Psychiatry and Mental health, Neurology, Ubiquitin, biology.protein, ASK1, Neurology (clinical), Replication protein A, Biological Psychiatry

Abstract

Ubiquitination and sumoylation are two important posttranslational modifications in cells. RING (Really Interesting New Gene)-type E3 ligases play essential roles in regulating a plethora of biological processes such as cell survival and death. In our previous study, we performed a microarray using inputs from MN9D dopaminergic neuronal cells treated with 6-hydroxydopamine and identified a novel RING-type E3 ligase, RNF166. We showed that RNF166 exerts proapoptotic effects via ubiquitin-dependent degradation of X-linked inhibitor of apoptosis and subsequent overactivation of caspase-dependent neuronal death following 6-hydroxydopamine treatment. In the present study, we further expanded the list of RNF166's binding substrates using mass spectral analyses of immunoprecipitates obtained from RNF166-overexpressing HEK293 cells. Poly (ADP-ribose) polymerase 1, ATPase WRNIP1, X-ray repair cross-complementing protein 5 (Ku80), and replication protein A 70 were identified as potential binding partners of RNF166. Additionally, we confirmed that RNF166 interacts with and forms lysine 63-linked polyubiquitin chains in Ku80. Consequently, these events promoted the increased stability of Ku80. Intriguingly, we found that RNF166 also contains distinct consensus sequences termed SUMO-interacting motifs and interacts with apoptosis signal-regulating kinase 1 (ASK1). We determined that RNF166 induces the sumoylation of ASK1. Overall, our data provide novel evidence that RNF166 has a dual function of Lys63-linked ubiquitination and sumoylation of its cellular targets.

Published

2021

47. SARS-CoV-2 variants show temperature-dependent enhanced polymerase activity in the upper respiratory tract and high transmissibility

Author

Se-Mi Kim, Eun-Ha Kim, Mark Anthony B. Casel, Young-Il Kim, Rong Sun, Mi-Jeong Kwack, Ji-Seung Yoo, Min-Ah Yu, Kwang-Min Yu, Seung-Gyu Jang, Rare Rollon, Jeong Ho Choi, JuRyeon Gil, Kiyoung Eun, Hyunggee Kim, Armin Ensser, Jungwon Hwang, Min-Suk Song, Myung Hee Kim, Jae U Jung, and Young Ki Choi

Subjects

Article

Abstract

With the convergent global emergence of SARS-CoV-2 variants of concern (VOC), a precise comparison study of viral fitness and transmission characteristics is necessary for the prediction of dominant VOCs and the development of suitable countermeasures. While airway temperature plays important roles in the fitness and transmissibility of respiratory tract viruses, it has not been well studied with SARS-CoV-2. Here we demonstrate that natural temperature differences between the upper (33°C) and lower (37°C) respiratory tract have profound effects on SARS-CoV-2 replication and transmission. Specifically, SARS-COV-2 variants containing the P323L or P323L/G671S mutation in the NSP12 RNA-dependent RNA polymerase (RdRp) exhibited enhanced RdRp enzymatic activity at 33°C compared to 37°C and high transmissibility in ferrets. MicroScale Thermophoresis demonstrated that the NSP12 P323L or P323L/G671S mutation stabilized the NSP12-NSP7-NSP8 complex interaction. Furthermore, reverse genetics-derived SARS-CoV-2 variants containing the NSP12 P323L or P323L/G671S mutation displayed enhanced replication at 33°C, and high transmission in ferrets. This suggests that the evolutionarily forced NSP12 P323L and P323L/G671S mutations of recent SARS-CoV-2 VOC strains are associated with increases of the RdRp complex stability and enzymatic activity, promoting the high transmissibility.

Published

2022

48. Methods for fighting emerging pathogens

Author

Luiz Carlos Junior Alcantara, Lucas Amenga-Etego, Robin Andersson, Moumita Bhaumik, Young Ki Choi, Hélène Decaluwe, Jemma Geoghegan, Bart L. Haagmans, Susana López, Maowia M. Mukhtar, Erni Nelwan, Elias A. Rahal, Kei Sato, Ella H. Sklan, Yvonne Su Chuan Fang, and Virology

Subjects

Cell Biology, Molecular Biology, Biochemistry, Biotechnology

Published

2022

49. Combination therapy with nirmatrelvir and molnupiravir improves the survival of SARS-CoV-2 infected mice

Author

Ju Hwan Jeong, Santosh Chokkakula, Seong Cheol Min, Beom Kyu Kim, Won-Suk Choi, Sol Oh, Yu Soo Yun, Da Hyeon Kang, Ok-Jun Lee, Eung-Gook Kim, Jang-Hoon Choi, Joo-Yeon Lee, Young Ki Choi, Yun Hee Baek, and Min-Suk Song

Subjects

Pharmacology, Mice, SARS-CoV-2, Virology, Animals, Mice, Transgenic, Antiviral Agents, COVID-19 Drug Treatment

Abstract

As the SARS-CoV-2 pandemic remains uncontrolled owing to the continuous emergence of variants of concern, there is an immediate need to implement the most effective antiviral treatment strategies, especially for risk groups. Here, we evaluated the therapeutic potency of nirmatrelvir, remdesivir, and molnupiravir and their combinations in SARS-CoV-2-infected K18-hACE2 transgenic mice. Systemic treatment of mice with each drug (20 mg/kg) resulted in slightly enhanced antiviral efficacy and yielded an increased life expectancy of only about 20–40% survival. However, combination therapy with nirmatrelvir (20 mg/kg) and molnupiravir (20 mg/kg) in lethally infected mice showed profound inhibition of SARS-CoV-2 replication in both the lung and brain and synergistically improved survival times up to 80% compared to those with nirmatrelvir (P= 0.0001) and molnupiravir (P= 0.0001) administered alone. This combination therapy effectively reduced clinical severity score, virus-induced tissue damage, and viral distribution compared to those in animals treated with these monotherapies. Furthermore, all these assessments associated with this combination were also significantly higher than that of mice receiving remdesivir monotherapy (P= 0.0001) and the nirmatrelvir (20 mg/kg) and remdesivir (20 mg/kg) combination (P= 0.0001), underscored the clinical significance of this combination. By contrast, the nirmatrelvir and remdesivir combination showed less antiviral efficacy, with lower survival compared to nirmatrelvir monotherapy, demonstrating the inefficient therapeutic effect of this combination. The combination therapy with nirmatrelvir and molnupiravir contributes to alleviated morbidity and mortality, which can serve as a basis for the design of clinical studies of this combination in the treatment of COVID-19 patients.IMPORTANCESince SARS-CoV-2 spread rapidly with the emergence of new variants of concerns, it is necessary to develop effective treatment strategies to treat elderly individuals and those with comorbidities. Antiviral therapy using a combination of drugs is more effective in eradicating viruses and will undoubtedly improve the clinical outcome and survival probability of hospitalized SARS-CoV-2 patients. In the current study, we observed three FDA-approved antivirals nirmatrelvir, remdesivir, and molnupiravir have therapeutic significance with moderate survival for their monotherapies against SARS-CoV-2 infected K18-hACE2 mouse model. The combination of nirmatrelvir and molnupiravir showed significant antiviral activity and a higher survival rate of approximately 80%, providing in vivo evidence of the potential utility of this combination. In contrast, nirmatrelvir and remdesivir combination showed less antiviral potency and emphasized the ineffective significance with less survival. The current study suggests that the nirmatrelvir and molnupiravir combination is an effective drug regimen strategy in treating SARS-CoV-2 patients.

Published

2022

50. Humoral and cellular immune response to Plasmodium vivax VIR recombinant and synthetic antigens in individuals naturally exposed to P. vivax in the Republic of Korea

Author

Sang-Hyun Lee, Young-Ki Choi, and Youn-Kyoung Goo

Subjects

Adult, Male, Adolescent, Synthetic antigen, medicine.medical_treatment, Plasmodium vivax, Population, RC955-962, Antigens, Protozoan, Infectious and parasitic diseases, RC109-216, Variant interspersed repeats protein, Young Adult, Immune system, Antigen, Immunity, Arctic medicine. Tropical medicine, Malaria Vaccines, Republic of Korea, parasitic diseases, Malaria, Vivax, medicine, Humans, Humoral immune response, education, Immunity, Cellular, Vaccines, Synthetic, education.field_of_study, biology, Research, Cellular immune response, Middle Aged, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, Immunity, Humoral, Interspersed Repetitive Sequences, Infectious Diseases, Cytokine, Immunology, biology.protein, bacteria, Female, Parasitology, Antibody

Abstract

Background Plasmodium vivax proteins with variant interspersed repeats (VIR) are the key proteins used by the parasite to escape from the host immune system through the creation of antigenic variations. However, few studies have been done to elucidate their role as targets of immunity. Thus, this study evaluated the naturally-acquired immune response against VIR proteins in vivax malaria-infected individuals in the Republic of Korea (ROK). Methods Seven recombinant VIR proteins and two synthetic peptides previously studied in other countries that elicited a robust immune response were used to investigate the antibody and cellular immune response in 681 P. vivax-infected people in ROK. The expression of IgM, IgG, and IgG subclasses against each VIR antigen or against PvMSP1-19 was analysed by ELISA. PvMSP1-19, known as a promising vaccine candidate of P. vivax, was used as the positive control for immune response assessment. Furthermore, the cellular immune response to VIR antigens was evaluated by in vitro proliferative assay, cellular activation assay, and cytokine detection in mononuclear cells of the P. vivax-infected population. Results IgM or IgG were detected in 52.4% of the population. Among all the VIR antigens, VIR25 elicited the highest humoral immune response in the whole population with IgG and IgM prevalence of 27.8% and 29.2%, respectively, while PvMSP1-19 elicited even higher prevalence (92%) of IgG in the population. As for the cellular immune response, VIR-C2, PvLP2, and PvMSP1-19 induced high cell activation and secretion of IL-2, IL-6, IL-10, and G-CSF in mononuclear cells from the P. vivax-infected population, comparable with results from PvMSP1-19. However, no significant proliferation response to these antigens was observed between the malaria-infected and healthy groups. Conclusion Moderate natural acquisition of antibody and cellular responses in P. vivax-infected Korean malaria patients presented here are similar to that in other countries. It is interesting that the immune response to VIR antigens is conserved among malaria parasites in different countries, considering that VIR genes are highly polymorphic. This thus warrants further studies to elucidate molecular mechanisms by which human elicit immune response to the malaria parasite VIR antigens.

Published

2021