A bacterial cell–cell communication signal with cross‐kingdom structural analogues

Summary Extracellular signals are the key components of microbial cell–cell communication systems. This report identified a diffusible signal factor (DSF), which regulates virulence in Xanthomonas campestris pv. campestris, as cis‐11‐methyl‐2‐dodecenoic acid, an α,β unsaturated fatty acid. Analysis...

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Published in:Molecular microbiology 2004-02, Vol.51 (3), p.903-912
Main Authors: Wang, Lian‐Hui, He, Yawen, Gao, Yunfeng, Wu, Ji En, Dong, Yi‐Hu, He, Chaozu, Wang, Su Xing, Weng, Li‐Xing, Xu, Jin‐Ling, Tay, Leng, Fang, Rong Xiang, Zhang, Lian‐Hui
Format: Article
Language:English
Subjects:
Bacterial Proteins - chemistry
Bacterial Proteins - metabolism
Bacteriology
Biological and medical sciences
Candida albicans
Candida albicans - metabolism
Cell Communication - physiology
Fatty Acids - chemistry
Fatty Acids - metabolism
Fundamental and applied biological sciences. Psychology
Microbiology
Miscellaneous
Molecular Structure
Xanthomonas campestris
Xanthomonas campestris - metabolism
Xanthomonas campestris - pathogenicity
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Summary:Summary Extracellular signals are the key components of microbial cell–cell communication systems. This report identified a diffusible signal factor (DSF), which regulates virulence in Xanthomonas campestris pv. campestris, as cis‐11‐methyl‐2‐dodecenoic acid, an α,β unsaturated fatty acid. Analysis of DSF derivatives established the double bond at the α,β positions as the most important structural feature for DSF biological activity. A range of bacterial pathogens, including several Mycobacterium species, also displayed DSF‐like activity. Furthermore, DSF is structurally and functionally related to farnesoic acid (FA), which regulates morphological transition and virulence by Candida albicans, a fungal pathogen. Similar to FA, which is also an α,β unsaturated fatty acid, DSF inhibits the dimorphic transition of C. albicans at a physiologically relevant concentration. We conclude that α,β unsaturated fatty acids represent a new class of extracellular signals for bacterial and fungal cell–cell communications. As prokaryote–eukaryote interactions are ubiquitous, such cross‐kingdom conservation in cell–cell communication systems might have significant ecological and economic importance.
ISSN:0950-382X
1365-2958
DOI:10.1046/j.1365-2958.2003.03883.x