The Chemistry of the Defensive Secretions of Three Species of Millipedes in the Genus Brachycybe

Overview

Journal J Chem Ecol

Publisher Springer

Specialties Chemistry
Environmental Health

Date 2024 Jun 9

PMID 38853234

Authors

Paige Banks

Emma M Funkhouser

Angie M Macias

Brian Lovett

Shelby Meador

Arden Hatch

H Martin Garraffo

Kaitie C Cartwright

Matt T Kasson

Paul E Marek

Tappey H Jones

Emily Mevers

Affiliations

Soon will be listed here.

Abstract

Millipedes have long been known to produce a diverse array of chemical defense agents that deter predation. These compounds, or their precursors, are stored in high concentration within glands (ozadenes) and are released upon disturbance. The subterclass Colobognatha contains four orders of millipedes, all of which are known to produce terpenoid alkaloids-spare the Siphonophorida that produce terpenes. Although these compounds represent some of the most structurally-intriguing millipede-derived natural products, they are the least studied class of millipede defensive secretions. Here, we describe the chemistry of millipede defensive secretions from three species of Brachycybe: Brachycybe producta, Brachycybe petasata, and Brachycybe rosea. Chemical investigations using mass spectrometry-based metabolomics, chemical synthesis, and 2D NMR led to the identification of five alkaloids, three of which are new to the literature. All identified compounds are monoterpene alkaloids with the new compounds representing indolizidine (i.e. hydrogosodesmine) and quinolizidine alkaloids (i.e. homogosodesmine and homo-hydrogosodesmine). The chemical diversity of these compounds tracks the known species phylogeny of this genus, rather than the geographical proximity of the species. The indolizidines and quinolizidines are produced by non-sympatric sister species, B. producta and B. petasata, while deoxybuzonamine is produced by another set of non-sympatric sister species, B. rosea and Brachycybe lecontii. The fidelity between the chemical diversity and phylogeny strongly suggests that millipedes generate these complex defensive agents de novo and begins to provide insights into the evolution of their biochemical pathways.

Citing Articles

Neuromodulating Alkaloids from Millipede Defensive Secretions.

Menegatti C, Wood J, Banks P, Knott K, Briganti J, Briganti A J Nat Prod. 2025; 88(1):110-118.

PMID: 39849940 PMC: 11773556. DOI: 10.1021/acs.jnatprod.4c01162.

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