Evaluation of the antiviral activity of naringenin, a major constituent of Typha angustifolia, against white spot syndrome virus in crayfish Procambarus clarkii

White spot syndrome virus (WSSV) is a serious pathogen threatening global crustacean aquaculture with no commercially available drugs. Herbal medicines widely used in antiviral research offer a rich reserve for drug discovery. Here, we investigated the inhibitory activity of 13 herbal medicines agai...

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Bibliographic Details
Published in:Journal of fish diseases 2021-10, Vol.44 (10), p.1503-1513
Main Authors: Sun, Zhong‐Chen, Chen, Cheng, Xu, Fei‐Fan, Li, Bing‐Ke, Shen, Jing‐Lei, Wang, Tao, Jiang, Hai‐Feng, Wang, Gao‐Xue
Format: Article
Language:English
Subjects:
Antioxidants
Antiviral activity
Antiviral agents
anti‐oxidative
Apoptosis
Aquaculture
Aquatic crustaceans
Aquatic plants
Chemical compounds
Crayfish
Crustaceans
Freshwater crustaceans
Freshwater plants
Gene expression
Herbal medicine
herbal medicines
Hsp70 protein
IE1 protein
Immunosuppressive agents
Inflammation
Life cycle
Life cycles
Naringenin
Pathogens
Pharmacology
Procambarus clarkii
Proliferation
Replication
Survival
Transcription
Typha angustifolia
Viruses
White spot syndrome
White spot syndrome virus
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Summary:White spot syndrome virus (WSSV) is a serious pathogen threatening global crustacean aquaculture with no commercially available drugs. Herbal medicines widely used in antiviral research offer a rich reserve for drug discovery. Here, we investigated the inhibitory activity of 13 herbal medicines against WSSV in crayfish Procambarus clarkii and discovered that naringenin (NAR) has potent anti‐WSSV activity. In the preliminary screening, the extracts of Typha angustifolia displayed the highest inhibitory activity on WSSV replication (84.62%, 100 mg/kg). Further, NAR, the main active compound of T. angustifolia, showed a much higher inhibition rate (92.85%, 50 mg/kg). NAR repressed WSSV proliferation followed a dose‐dependent manner and significantly improved the survival of WSSV‐challenged crayfish. Moreover, pre‐ or post‐treatment of NAR displayed a comparable inhibition on the viral loads. NAR decreased the transcriptional levels of vital genes in viral life cycle, particularly for the immediately early‐stage gene ie1. Further results showed that NAR could decrease the STAT gene expression to block ie1 transcription. Besides, NAR modulated immune‐related gene Hsp70, antioxidant (cMnSOD, mMnSOD, CAT, GST), anti‐inflammatory (COX‐1, COX‐2) and pro‐apoptosis‐related factors (Bax and BI‐1) to inhibit WSSV replication. Overall, these results suggest that NAR may have the potential to be developed as preventive or therapeutic agent against WSSV.
ISSN:0140-7775
1365-2761
DOI:10.1111/jfd.13472