Sequestration of Plant Defense Compounds by Insects: From Mechanisms to Insect-Plant Coevolution

Overview

Journal Annu Rev Entomol

Specialty Biology

Date 2022 Jan 7

PMID 34995091

Citations 32

Authors

Franziska Beran

Georg Petschenka

Affiliations

Soon will be listed here.

Abstract

Plant defense compounds play a key role in the evolution of insect-plant associations by selecting for behavioral, morphological, and physiological insect adaptations. Sequestration, the ability of herbivorous insects to accumulate plant defense compounds to gain a fitness advantage, represents a complex syndrome of adaptations that has evolved in all major lineages of herbivorous insects and involves various classes of plant defense compounds. In this article, we review progress in understanding how insects selectively accumulate plant defense metabolites and how the evolution of specific resistance mechanisms to these defense compounds enables sequestration. These mechanistic considerations are further integrated into the concept of insect-plant coevolution. Comparative genome and transcriptome analyses, combined with approaches based on analytical chemistry that are centered in phylogenetic frameworks, will help to reveal adaptations underlying the sequestration syndrome, which is essential to understanding the influence of sequestration on insect-plant coevolution.

Citing Articles

Disease from leaves to landscapes: viral hotspots are determined by spatial arrangement and phytochemistry of host plants in specialist caterpillars.

Christensen T, Smilanich A, Carper A, Peechatt V, Bowers M, Forister M Proc Biol Sci. 2025; 292(2041):20242753.

PMID: 39999890 PMC: 11858745. DOI: 10.1098/rspb.2024.2753.

Plant Defense Responses to Insect Herbivores Through Molecular Signaling, Secondary Metabolites, and Associated Epigenetic Regulation.

Mahanta D, Komal J, Samal I, Bhoi T, Kumar P, Mohapatra S Plant Environ Interact. 2025; 6(1):e70035.

PMID: 39959634 PMC: 11830398. DOI: 10.1002/pei3.70035.

Regionality and Temporal Dynamics of Sequestration and Relocation of Cardenolides in the Monarch Butterfly, Danaus plexippus.

Betz A, Hoglinger B, Walker F, Petschenka G J Chem Ecol. 2025; 51(1):19.

PMID: 39903316 PMC: 11794346. DOI: 10.1007/s10886-025-01572-8.

Hierarchical architecture of neo-sex chromosomes and accelerated adaptive evolution in tortricid moths.

Yang F, Cao L, Nguyen P, Ma Z, Chen J, Song W Genome Res. 2025; 35(1):66-77.

PMID: 39762048 PMC: 11789632. DOI: 10.1101/gr.279569.124.

Passive accumulation of alkaloids in inconspicuously colored frogs refines the evolutionary paradigm of acquired chemical defenses.

Tarvin R, Coleman J, Donoso D, Betancourth-Cundar M, Lopez-Hervas K, Gleason K Elife. 2024; 13.

PMID: 39728927 PMC: 11677230. DOI: 10.7554/eLife.100011.