Title: A bacterial source for mollusk pyrone polyketides.

Authors: Lin, Zhenjian; Torres, Joshua P; Ammon, Mary Anne; Marett, Lenny; Teichert, Russell W; Reilly, Christopher A; Kwan, Jason C; Hughen, Ronald W; Flores, Malem; Tianero, Ma Diarey; Peraud, Olivier; Cox, James E; Light, Alan R; Villaraza, Aaron Joseph L; Haygood, Margo G; Concepcion, Gisela P; Olivera, Baldomero M; Schmidt, Eric W

Published In Chem Biol, (2013 Jan 24)

Abstract: In the oceans, secondary metabolites often protect otherwise poorly defended invertebrates, such as shell-less mollusks, from predation. The origins of these metabolites are largely unknown, but many of them are thought to be made by symbiotic bacteria. In contrast, mollusks with thick shells and toxic venoms are thought to lack these secondary metabolites because of reduced defensive needs. Here, we show that heavily defended cone snails also occasionally contain abundant secondary metabolites, γ-pyrones known as nocapyrones, which are synthesized by symbiotic bacteria. The bacteria, Nocardiopsis alba CR167, are related to widespread actinomycetes that we propose to be casual symbionts of invertebrates on land and in the sea. The natural roles of nocapyrones are unknown, but they are active in neurological assays, revealing that mollusks with external shells are an overlooked source of secondary metabolite diversity.

PubMed ID: 23352141

MeSH Terms: Actinobacteria/chemistry; Actinobacteria/physiology*; Animals; Mollusca/chemistry; Mollusca/microbiology*; Mollusca/physiology*; Polyketides/chemistry; Polyketides/metabolism*; Pyrones/chemistry; Pyrones/metabolism*; Symbiosis*