Abstract
Kava extract, an aqueous rhizome emulsion of the plant Piper methysticum, has been used for centuries by Pacific Islanders as a ceremonial beverage, and has been sold as an anxiolytic agent for some decades. Kavalactones are a major constituent of kava extract. In a previous investigation, we had identified three kavalactones that inhibit larval development of Haemonchus contortus in an in vitro-bioassay. In the present study, we synthesized two kavalactones, desmethoxyyangonin and yangonin, as well as 17 analogues thereof, and evaluated their anthelmintic activities using the same bioassay as employed previously. Structure activity relationship (SAR) studies showed that a 4-substituent on the pendant aryl ring was required for activity. In particular, compounds with 4-trifluoromethoxy, 4-difluoromethoxy, 4-phenoxy, and 4-N-morpholine substitutions had anthelmintic activities (IC50 values in the range of 1.9 to 8.9 µM) that were greater than either of the parent natural products—desmethoxyyangonin (IC50 of 37.1 µM) and yangonin (IC50 of 15.0 µM). The synthesized analogues did not exhibit toxicity on HepG2 human hepatoma cells in vitro at concentrations of up to 40 µM. These findings confirm the previously-identified kavalactone scaffold as a promising chemotype for new anthelmintics and provide a basis for a detailed SAR investigation focused on developing a novel anthelmintic agent.
Highlights
Kava extract is an aqueous emulsion that is prepared from the plant Piper methysticum
In a recent effort to discover anthelmintic candidates from natural sources [7], we identified, for the first time, an enriched root extract from P. methysticum, collected from Papua New Guinea, with activity against one of the most important parasitic nematodes of livestock animals—Haemonchus contortus
Using one representative from the identified kavalactone panel, desmethoxyyangonin, we showed that exposure to the compound for 30 h was sufficient to induce the Evi phenotype in H. contortus
Summary
Kava extract is an aqueous emulsion that is prepared from the plant Piper methysticum. While dihydrokavain had a limited potency at inhibiting L4 development (IC50 of 207.6 μM), both desmethoxyyangonin (IC50 of 31.7 μM) and yangonin (IC50 of 23.7 μM) were moderately potent inhibitors of larval development. Each of these compounds induced a lethal ‘evisceration’ (Evi) phenotype in treated larvae [7]. We undertook a structure-activity relationship (SAR) investigation of this natural product scaffold, with the aim of synthesizing analogues with improved efficacy and pharmacokinetic profiles, and with a view toward identifying potential ‘lead’ candidates for future anthelmintic drug development
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