Synthesis and Antifungal Activity of Novel Sclerotiorin Analogues

Sclerotiorin 1, first isolated from Penicillium sclerotiorum, has weak antifungal activity and belongs to the azaphilone-type family of natural products. Several series of sclerotiorin analogues were designed and synthesized with the aim of discovering novel fungicides with improved activity. The sy...

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Bibliographic Details
Published in:Journal of agricultural and food chemistry 2012-05, Vol.60 (18), p.4480-4491
Main Authors: Lin, Long, Mulholland, Nick, Wu, Qiong-You, Beattie, David, Huang, Shao-Wei, Irwin, Dianne, Clough, John, Gu, Yu-Cheng, Yang, Guang-Fu
Format: Article
Language:English
Subjects:
Antiparasitic Agents - chemical synthesis
Antiparasitic Agents - chemistry
Antiparasitic Agents - pharmacology
Benzopyrans - chemistry
Benzopyrans - pharmacology
Biological and medical sciences
Drug Design
Food industries
Foodborne Diseases - prevention & control
Fundamental and applied biological sciences. Psychology
Fungicides, Industrial - chemical synthesis
Fungicides, Industrial - chemistry
Fungicides, Industrial - pharmacology
Gibberella - drug effects
Mitosporic Fungi - drug effects
Pythium - drug effects
Structure-Activity Relationship
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Summary:Sclerotiorin 1, first isolated from Penicillium sclerotiorum, has weak antifungal activity and belongs to the azaphilone-type family of natural products. Several series of sclerotiorin analogues were designed and synthesized with the aim of discovering novel fungicides with improved activity. The syntheses involved two key steps, cycloisomerization and then oxidation, and used a simple and efficient Sonogashira cross-coupling reaction to construct the required functionalized precursor. With sclerotiorin as a control, the activities of the newly synthesized analogues were evaluated against seven fungal pathogens, and several promising candidates (compounds 3a 1 , 3d 2 , 3e 2 , 3f 2 and 3k 2 ) with greater activity and simpler structures than sclerotiorin were discovered. In addition, preliminary structure–activity relationships were studied, which revealed that not only the chlorine or bromine substituent at the 5-position of the nucleus but also the phenyl group at the 3-position and the substituent pattern on it contributed crucially to the observed antifungal activity. Analogues with a methyl substituent at the 1-position have reduced levels of activity, while those with a free hydroxyl group in place of acetoxy at the quaternary center of the bicyclic ring system retain activity.
ISSN:0021-8561
1520-5118
DOI:10.1021/jf300610j