Genome-based Discovery and Total Synthesis of Janustatins, Potent Cytotoxins from a Plant-associated Bacterium

Overview

Journal Nat Chem

Specialty Chemistry

Date 2022 Sep 6

PMID 36064972

Authors

Reiko Ueoka

Philipp Sondermann

Stefan Leopold-Messer

Yizhou Liu

Rei Suo

Agneya Bhushan

Lida Vadakumchery

Ute Greczmiel

Yoko Yashiroda

Hiromi Kimura

Shinichi Nishimura

Yojiro Hoshikawa

Minoru Yoshida

Annette Oxenius

Shigeki Matsunaga

R Thomas Williamson

Erick M Carreira

Jorn Piel

Affiliations

Soon will be listed here.

Abstract

Host-associated bacteria are increasingly being recognized as underexplored sources of bioactive natural products with unprecedented chemical scaffolds. A recently identified example is the plant-root-associated marine bacterium Gynuella sunshinyii of the chemically underexplored order Oceanospirillales. Its genome contains at least 22 biosynthetic gene clusters, suggesting a rich and mostly uncharacterized specialized metabolism. Here, in silico chemical prediction of a non-canonical polyketide synthase cluster has led to the discovery of janustatins, structurally unprecedented polyketide alkaloids with potent cytotoxicity that are produced in minute quantities. A combination of MS and two-dimensional NMR experiments, density functional theory calculations of C chemical shifts and semiquantitative interpretation of transverse rotating-frame Overhauser effect spectroscopy data were conducted to determine the relative configuration, which enabled the total synthesis of both enantiomers and assignment of the absolute configuration. Janustatins feature a previously unknown pyridodihydropyranone heterocycle and an unusual biological activity consisting of delayed, synchronized cell death at subnanomolar concentrations.

Citing Articles

Insights into Heterocycle Biosynthesis in the Cytotoxic Polyketide Alkaloid Janustatin A from a Plant-Associated Bacterium.

Leopold-Messer S, Chawengrum P, Piel J Biochemistry. 2025; 64(2):357-363.

PMID: 39787262 PMC: 11755721. DOI: 10.1021/acs.biochem.4c00542.

Impact of Marine Chemical Ecology Research on the Discovery and Development of New Pharmaceuticals.

Tan L Mar Drugs. 2023; 21(3).

PMID: 36976223 PMC: 10055925. DOI: 10.3390/md21030174.

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