Your search keyword '"Wang, Guibo"' showing total 2 results

1. Antiviral activity and underlying mechanisms of baicalin against avian infectious bronchitis virus in vitro.

Author

Feng, Haipeng, Zhang, Kai, Zhang, Kang, Guo, Zhiting, Liu, Qin, Wang, Lei, Wang, Xuezhi, Qiu, Zhengying, Wang, Guibo, Zhang, Jingyan, and Li, Jianxi

Subjects

AVIAN infectious bronchitis virus, ANTIVIRAL agents, LIFE cycles (Biology), CHINESE skullcap

Abstract

Baicalin, a flavonoid compound extracted from the dry root of Scutellaria baicalensis Georgi, has been shown to have anti-inflammation, anti-viral, anti-bacterial, and immunomodulatory activity. However, the effect of baicalin against avian infectious bronchitis virus (IBV) remains unknown. The purpose of this study was to investigate the anti-IBV activity and underlying mechanism of baicalin in vitro. The results showed that baicalin has a direct virucidal effect but no prophylactic effect on IBV infection. The mRNA and protein of IBV N were decreased significantly when IBV-infected cells were treated with baicalin during the multiple stages of the virus replication cycle, including viral adsorption, invasion, internalization, and release. Stress granule (SG) formation resulted from the increase of G3BP1 and the phosphorylation of the PKR/eIF2α due to the treatment of IBV-infected cells with baicalin. The inhibitory activity of baicalin on IBV replication was increased when G3BP1 expression was inhibited, and the down-regulation of G3BP1 expression occurred when the expression of PKR and eIF2α was inhibited. These findings revealed that baicalin activates phosphorylation of the PKR/eIF2α pathway and induces SG formation by targeting G3BP1, initiating the antiviral response to suppress IBV replication in Vero cells. The results suggest that baicalin is a promising candidate drug to treat or prevent IBV infection. RESEARCH HIGHLIGHTS Baicalin inhibits IBV replication by reducing IBV N protein and mRNA. Baicalin disturbs multiple stages of the IBV life cycle. Baicalin activates PKR/eIF2α pathway and induces stress granule formation to exert anti-IBV response. [ABSTRACT FROM AUTHOR]

Published

2022

2. Phillygenin activates PKR/eIF2α pathway and induces stress granule to exert anti-avian infectious bronchitis virus.

Author

Feng, Haipeng, Zhang, Jingyan, Zhang, Kang, Wang, Xuezhi, Zhang, Kai, Guo, Zhiting, Han, Songwei, Wang, Lei, Qiu, Zhengying, Wang, Guibo, and Li, Jianxi

Subjects

*AVIAN infectious bronchitis virus, *HISTORY of medicine, *CHINESE medicine, *VIRAL mutation, *PRODUCTION losses

Abstract

• Phillygenin has high binding activity with IBV spike protein, non-structural protein 9 and main protease by molecular docking simulation. • Phillygenin inhibits IBV replication by reducing IBV N mRNA transcription, N protein synthesis and the release of virus particles. • Phillygenin disturbs multiple stages of the IBV life cycle, including viral adsorption, invasion, internalization and release in cell. • Phillygenin activates PKR/eIF2α pathway and induces stress granule formation to exert anti-IBV. The prevalence of avian infectious bronchitis virus (IBV) is still one of causes inducing severe losses of production in the poultry industry worldwide. Vaccination does not completely prevent IBV infection and spread due to immune failure and viral mutations. Forsythiae Fructus and its compounds have been widely used in a lot of prescriptions of the traditional Chinese medicine for a long history, and it is well-known as safety and efficiency in heat-clearing and detoxifying. This study aims to investigate the anti-IBV activity and mechanism of phillygenin. The results showed that phillygenin inhibited IBV replication by disturbing multiple stages of the virus life cycle, including viral adsorption, invasion, internalization, and release in Vero cells. After being treated with 100, 125 and 150 μg/mL phillygenin, the expression of G3BP1 was significantly increased and the phosphorylation of PKR/eIF2α was activated, which increased stress granule, thereby triggering the antiviral response in Vero cells. The anti-virus activity of PHI was decreased when G3BP1 was interfered by si-RNA, and G3BP1 was down-regulated when PKR/eIF2α was interfered by si-RNA. In conclusion, our findings indicate that phillygenin activates PKR/eIF2α pathway and induces stress granule formation to exert anti-IBV, which holds promise to develop into a novel anti-IBV drug. Further study in vivo is needed to explore phillygenin as a potential and effective drug to prevent IB in poultry. [ABSTRACT FROM AUTHOR]

Published

2022