A Versatile Transport Network for Sequestering and Excreting Plant Glycosides in Leaf Beetles Provides an Evolutionary Flexible Defense Strategy

Overview

Journal Chembiochem

Specialty Biochemistry

Date 2009 Jul 23

PMID 19623597

Citations 14

Authors

Sabrina Discher

Antje Burse

Karla Tolzin-Banasch

Stefan H Heinemann

Jacques M Pasteels

Wilhelm Boland

Affiliations

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Abstract

The larval defenses of chrysomeline leaf beetles comprise components that are either synthesized de novo or sequestered from their food plants. Both biosynthetic modes are based on glucosides that serve as substrates and forms of transport. The defensive glands import the compounds through highly selective glucoside transporters from a circulating pool in the hemolymph. Here we address the selectivity of the different transport systems with larvae of Chrysomela populi, an obligate sequestering species, and with larvae of Phaedon cochleariae, producing monoterpene [corrected] iridoids. Both species possess an interconnected network of transport systems for uptake and excretion. The glucosides are imported by the gut membrane with low selectivity. Their excretion by the Malpighian tubules is similarly unselective, but the uptake of the glucosides from the hemolymph into the defensive system is specific. Only the genuine glucoside precursors made de novo or sequestered from the plant are imported. The successful combination of the precursor-adapted pathways of excretion and defense has probably allowed many leaf beetle species to adaptively radiate onto, and coevolve with plants that offer appropriate glucoside precursors.

Citing Articles

Rapid and Selective Absorption of Plant Defense Compounds From the Gut of a Sequestering Insect.

Yang Z, Seitz F, Grabe V, Nietzsche S, Richter A, Reichelt M Front Physiol. 2022; 13:846732.

PMID: 35309070 PMC: 8928188. DOI: 10.3389/fphys.2022.846732.

Hijacking the Mustard-Oil Bomb: How a Glucosinolate-Sequestering Flea Beetle Copes With Plant Myrosinases.

Sporer T, Kornig J, Wielsch N, Gebauer-Jung S, Reichelt M, Hupfer Y Front Plant Sci. 2021; 12:645030.

PMID: 34093609 PMC: 8173161. DOI: 10.3389/fpls.2021.645030.

Three-way interaction among plants, bacteria, and coleopteran insects.

Wielkopolan B, Obrepalska-Steplowska A Planta. 2016; 244(2):313-32.

PMID: 27170360 PMC: 4938854. DOI: 10.1007/s00425-016-2543-1.

Two Defensive Lines in Juvenile Leaf Beetles; Esters of 3-nitropropionic Acid in the Hemolymph and Aposematic Warning.

Pauls G, Becker T, Rahfeld P, Gretscher R, Paetz C, Pasteels J J Chem Ecol. 2016; 42(3):240-8.

PMID: 27033853 PMC: 4839037. DOI: 10.1007/s10886-016-0684-0.

Chemical defense balanced by sequestration and de novo biosynthesis in a lepidopteran specialist.

Furstenberg-Hagg J, Zagrobelny M, Jorgensen K, Vogel H, Moller B, Bak S PLoS One. 2014; 9(10):e108745.

PMID: 25299618 PMC: 4191964. DOI: 10.1371/journal.pone.0108745.