Structural Simplification of Marine Natural Products: Discovery of Hamacanthin Derivatives Containing Indole and Piperazinone as Novel Antiviral and Anti-phytopathogenic-fungus Agents

With the increasing severity of plant diseases and the emergence of pathogen resistance, there is an urgent need for the development of new efficient and environment-friendly pesticides. Marine natural product (MNP) resources are rich and diverse. Structural simplification based on MNPs is an import...

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Published inJournal of agricultural and food chemistry Vol. 69; no. 35; pp. 10093 - 10103
Main Authors Wang, Tienan, Li, Lin, Zhou, Yanan, Lu, Aidang, Li, Hongyan, Chen, Jianxin, Duan, Zhongyu, Wang, Qingmin
Format Journal Article
LanguageEnglish
Published WASHINGTON American Chemical Society 08.09.2021
Amer Chemical Soc
Subjects
Agricultural and Environmental Chemistry
Agriculture
Agriculture, Multidisciplinary
Chemistry
Chemistry, Applied
Food Science & Technology
Life Sciences & Biomedicine
Physical Sciences
Science & Technology
hamacanthin alkaloids
mode of action
marine natural product
anti-TMV activity
fungicidal activity
ENANTIOSELECTIVE SYNTHESIS
SPONGE
TOPSENTIN
DOCKING
(-)-ANTIPODE
BISINDOLE ALKALOIDS
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Summary:With the increasing severity of plant diseases and the emergence of pathogen resistance, there is an urgent need for the development of new efficient and environment-friendly pesticides. Marine natural product (MNP) resources are rich and diverse. Structural simplification based on MNPs is an important strategy to find novel pesticide candidates. In this work, the marine natural product 6″-debromohamacanthin A (1a) was efficiently prepared and selected as the parent structure. A series of hamacanthin derivatives were designed, synthesized, and studied on the antiviral and antifungal activities. Most of these compounds displayed higher antiviral activities than ribavirin. The antiviral activities of compounds 1a and 13e–13h are similar to or higher than that of ningnanmycin (perhaps the most efficient anti-plant-virus agent). Compound 13h was selected for further antiviral mechanism research via transmission electron microscopy, molecular docking, and fluorescence titration. The results showed that compound 13h could bind to TMV CP and interfere with the assembly process of TMV CP and RNA. In addition, these hamacanthin derivatives also exhibited broad-spectrum inhibitory effects against eight common agricultural pathogens. Compounds 1a, 12b, and 12f with excellent fungicidal activities can be considered as new fungicidal candidates for further research. These results provide a basis for the application of hamacanthin alkaloids in crop protection.
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ISSN:0021-8561
1520-5118
DOI:10.1021/acs.jafc.1c04098