Discovery of methylfarnesoate as the annelid brain hormone reveals an ancient role of sesquiterpenoids in reproduction

Animals require molecular signals to determine when to divert resources from somatic functions to reproduction. This decision is vital in animals that reproduce in an all-or-nothing mode, such as bristle worms: females committed to reproduction spend roughly half their body mass for yolk and egg pro...

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Bibliographic Details
Published in:eLife 2016-11, Vol.5
Main Authors: Schenk, Sven, Krauditsch, Christian, Frühauf, Peter, Gerner, Christopher, Raible, Florian
Format: Article
Language:English
Subjects:
Animals
Annelida
Annelida - physiology
Bioassays
Biochemistry
Body mass
Brain - physiology
Brain research
Cell culture
Egg production
evolution
Fatty Acids, Unsaturated - metabolism
Genomics and Evolutionary Biology
hormone
Hormones - metabolism
Insecticides
Laboratories
Larvicides
Marine ecosystems
Neural circuitry
Phylogenetics
Physiological aspects
Proteins
Reproduction
Sesquiterpenoids
Spawning
Terpenoids
Transcription
Transcription, Genetic - drug effects
Variance analysis
Vitellogenesis
Vitellogenin
Vitellogenins - biosynthesis
Yolk
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Summary:Animals require molecular signals to determine when to divert resources from somatic functions to reproduction. This decision is vital in animals that reproduce in an all-or-nothing mode, such as bristle worms: females committed to reproduction spend roughly half their body mass for yolk and egg production; following mass spawning, the parents die. An enigmatic brain hormone activity suppresses reproduction. We now identify this hormone as the sesquiterpenoid methylfarnesoate. Methylfarnesoate suppresses transcript levels of the yolk precursor Vitellogenin both in cell culture and , directly inhibiting a central energy-costly step of reproductive maturation. We reveal that contrary to common assumptions, sesquiterpenoids are ancient animal hormones present in marine and terrestrial lophotrochozoans. In turn, insecticides targeting this pathway suppress vitellogenesis in cultured worm cells. These findings challenge current views of animal hormone evolution, and indicate that non-target species and marine ecosystems are susceptible to commonly used insect larvicides.
ISSN:2050-084X
2050-084X
DOI:10.7554/elife.17126