Tetsuo Kaneko scite author profile

Nearly 500 alkaloids have been detected in skin extracts from frogs of the family Dendrobatidae. All seem to have been sequestered unchanged into skin glands from alkaloid-containing arthropods. Ants, beetles, and millipedes seem to be the source of decahydroquinolines, certain izidines, coccinellines, and spiropyrrolizidine oximes. But the dietary source for a major group of frog-skin alkaloids, namely the pumiliotoxins (PTXs), alloPTXs, and homoPTXs, remained a mystery. In hopes of revealing an arthropod source for the PTX group, small arthropods were collected from eight different sites on a Panamanian island, where the dendrobatid frog (Dendrobates pumilio) was known to contain high levels of two PTXs. The mixed arthropod collections from several sites, each representing up to 20 arthropod taxa, contained PTX 307A and͞or alloPTX 323B. In addition, the mixed arthropod collections from several sites contained a 5,8-disubstituted indolizidine (205A or 235B), representing another class of alkaloids previously unknown from an arthropod. An ant alkaloid, decahydroquinoline 195A, was detected in the mixed arthropod collections from several sites. Thus, ''combinatorial bioprospecting'' demonstrates that further collection and analysis of individual taxa of leaf-litter arthropods should reveal the taxa from which PTXs, alloPTXs, and 5,8-disubstituted indolizidines are derived.

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Evidence for Biosynthesis of Pseudophrynamine Alkaloids by an Australian Myobatrachid Frog (Pseudophryne) and for Sequestration of Dietary Pumiliotoxins

Tyler

Kaneko

et al. 2002

J. Nat. Prod.

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Australian myobatrachid frogs of the genus Pseudophryne have only two classes of alkaloids in skin extracts, pseudophrynamines (PSs) and pumiliotoxins (PTXs). The former are unique to such Australian frogs, while the PTXs occur worldwide in all other genera of frogs/toads that contain lipophilic alkaloids. The major alkaloid of wild-caught frogs from one population of Pseudophryne semimarmorata was PTX 267C, while PSs were only minor or trace alkaloids. Captive-raised frogs from the same parental stock had no PTXs, but had larger amounts of PSs. A PTX fed to captive-raised frogs accumulated into skin along with dihydro and hydroxy metabolites. Thus, Pseudophryne frogs appear to biosynthesize PSs, but to sequester into skin dietary PTXs. In addition, biosynthesis of PSs appears reduced when high levels of dietary PTXs have accumulated into skin. This is the first evidence indicating that certain frogs are capable of synthesizing rather than merely sequestering alkaloids. A wide range of PSs, including many with molecular weights >500, were detected using both GC-mass spectral and LC-mass spectral analysis.

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Synthesis of Alkaloid 223A and a Structural Revision

Toyooka

Fukutome²,

Nemoto³

et al. 2002

Org. Lett.

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n-Alkyl glycosides and p-hydroxybenzoyloxy glucose from fruits of Crescentia cujete

et al. 1998

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Tetsuo Kaneko

Bioactive alkaloids of frog skin: Combinatorial bioprospecting reveals that pumiliotoxins have an arthropod source

Evidence for Biosynthesis of Pseudophrynamine Alkaloids by an Australian Myobatrachid Frog (Pseudophryne) and for Sequestration of Dietary Pumiliotoxins

Synthesis of Alkaloid 223A and a Structural Revision

n-Alkyl glycosides and p-hydroxybenzoyloxy glucose from fruits of Crescentia cujete

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