Abstract
The influence of kavapyrones from Piper methysticum Forst. on the GABAA receptor was demonstrated using radioreceptor assays. Both the dienolide yangonin
and the genuine enolide enantiomers (+)-kavain, (+)-dihydrokavain, (+)-methysticin,
and (+)-dihydromethysticin enhanced the specific binding of [3
H]bicuculline methochloride ([3
H]BMC). The kavapyrones have been investigated at assay concentrations between 100
µM and 10 nM. (+)-Kavain, (+)-methysticin and (+)-dihydromethysticin showed maximal
enhancements of 18% to 28% at a concentration of 0.1 µM, whereas a 100-fold concentration
of (+)-dihydrokavain revealed a similar modulatory activity of 22%. In the presence
of 1 µM yangonin an increase of about 21% of the specific [3
H]BMC binding was observed. Desmethoxy-yangonin did not alter the binding behavior
of the GABAA-receptor. A structure comparison of desmethoxyyangonin and yangonin indicated that
the aromatic methoxy group was of particular importance for the modulatory activity.
In contrast, the substitution pattern of the aromatic ring did not influence the modulatory
activity of the enolides in a decisive manner. A structure comparison of desmethoxyyangonin
and (+)-kavain revealed that an angular lactone ring was an important structure requirement.
Both the enolides and the dienolides did not inhibit the specific binding of [3
H]flunitrazepam. Thus, the influence on the GABAA receptor was not based upon an interaction of these kavapyrones with the benzodiazepine
receptor.
Key words
Piper methysticum
- Piperaceae - Kava-Kava - kavapyrones - GABAA receptor
