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« Previous AbstractAre insect-synthesized retronecine esters (creatonotines) the precursors of the male courtship pheromone in the arctiid moth Estigmene acrea?    Next AbstractBias by the inappropriate use of the pseudo-first order approach to estimate second-order reaction rate constants: reply to the commentary by Tratnyek (this issue) »

Insect Biochem Mol Biol


Title:"Acquisition, transformation and maintenance of plant pyrrolizidine alkaloids by the polyphagous arctiid Grammia geneura"
Author(s):Hartmann T; Theuring C; Beuerle T; Bernays EA; Singer MS;
Address:"Institut fur Pharmazeutische Biologie der Technischen Universitat Braunschweig, Mendelssohnstrasse 1, D-38106 Braunschweig, Germany. thartmann@tu-bs.de"
Journal Title:Insect Biochem Mol Biol
Year:2005
Volume:35
Issue:10
Page Number:1083 - 1099
DOI: 10.1016/j.ibmb.2005.05.011
ISSN/ISBN:0965-1748 (Print) 0965-1748 (Linking)
Abstract:"The polyphagous arctiid Grammia geneura appears well adapted to utilize for its protection plant pyrrolizidine alkaloids of almost all known structural types. Plant-acquired alkaloids that are maintained through all life-stages include various classes of macrocyclic diesters (typically occurring in the Asteraceae tribe Senecioneae and Fabaceae), macrocyclic triesters (Apocynaceae) and open-chain esters of the lycopsamine type (Asteraceae tribe Eupatorieae, Boraginaceae and Apocynaceae). As in other arctiids, all sequestered and processed pyrrolizidine alkaloids are maintained as non-toxic N-oxides. The only type of pyrrolizidine alkaloids that is neither sequestered nor metabolized are the pro-toxic otonecine-derivatives, e.g. the senecionine analog senkirkine that cannot be detoxified by N-oxidation. In its sequestration behavior, G. geneura resembles the previously studied highly polyphagous Estigmene acrea. Both arctiids are adapted to exploit pyrrolizidine alkaloid-containing plants as 'drug sources'. However, unlike E. acrea, G. geneura is not known to synthesize the pyrrolizidine-derived male courtship pheromone, hydroxydanaidal, and differs distinctly in its metabolic processing of the plant-acquired alkaloids. Necine bases obtained from plant acquired pyrrolizidine alkaloids are re-esterified yielding two distinct classes of insect-specific ester alkaloids, the creatonotines, also present in E. acrea, and the callimorphines, missing in E. acrea. The creatonotines are preferentially found in pupae; in adults they are largely replaced by the callimorphines. Before eclosion the creatonotines are apparently converted into the callimorphines by trans-esterification. Open-chain ester alkaloids such as the platynecine ester sarracine and the orchid alkaloid phalaenopsine, that do not possess the unique necic acid moiety of the lycopsamine type, are sequestered by larvae but they need to be converted into the respective creatonotines and callimorphines by trans-esterification in order to be transferred to the adult stage. In the case of the orchid alkaloids, evidence is presented that during this processing the necine base (trachelanthamidine) is converted into its 7-(R)-hydroxy derivative (turneforcidine), indicating the ability of G. geneura to introduce a hydroxyl group at C-7 of a necine base. The creatonotines and callimorphines display a striking similarity to plant necine monoesters of the lycopsamine type to which G. geneura is well adapted. The possible function of insect-specific trans-esterification in the acquisition of necine bases derived from plant acquired alkaloids, especially from those that cannot be maintained through all life-stages, is discussed"
Keywords:Animals Asteraceae/metabolism/parasitology Larva Moths/growth & development/metabolism/*pathogenicity Plant Diseases/parasitology Plants/*metabolism/parasitology Pyrrolizidine Alkaloids/*metabolism;
Notes:"MedlineHartmann, T Theuring, C Beuerle, T Bernays, E A Singer, M S eng 1 K12 GM00708/GM/NIGMS NIH HHS/ Research Support, N.I.H., Extramural Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, P.H.S. England 2005/08/17 Insect Biochem Mol Biol. 2005 Oct; 35(10):1083-99. doi: 10.1016/j.ibmb.2005.05.011"

 
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