Fungal Biology and Biotechnology (Sep 2023)

Non-canonical two-step biosynthesis of anti-oomycete indole alkaloids in Kickxellales

  • Johannes Rassbach,
  • Nathalie Hilsberg,
  • Veit G. Haensch,
  • Sebastian Dörner,
  • Julia Gressler,
  • Robin Sonnabend,
  • Caroline Semm,
  • Kerstin Voigt,
  • Christian Hertweck,
  • Markus Gressler

DOI
https://doi.org/10.1186/s40694-023-00166-x
Journal volume & issue
Vol. 10, no. 1
pp. 1 – 21

Abstract

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Abstract Background Fungi are prolific producers of bioactive small molecules of pharmaceutical or agricultural interest. The secondary metabolism of higher fungi (Dikarya) has been well-investigated which led to > 39,000 described compounds. However, natural product researchers scarcely drew attention to early-diverging fungi (Mucoro- and Zoopagomycota) as they are considered to rarely produce secondary metabolites. Indeed, only 15 compounds have as yet been isolated from the entire phylum of the Zoopagomycota. Results Here, we showcase eight species of the order Kickxellales (phylum Zoopagomycota) as potent producers of the indole-3-acetic acid (IAA)-derived compounds lindolins A and B. The compounds are produced both under laboratory conditions and in the natural soil habitat suggesting a specialized ecological function. Indeed, lindolin A is a selective agent against plant-pathogenic oomycetes such as Phytophthora sp. Lindolin biosynthesis was reconstituted in vitro and relies on the activity of two enzymes of dissimilar evolutionary origin: Whilst the IAA–CoA ligase LinA has evolved from fungal 4-coumaryl-CoA synthetases, the subsequently acting IAA-CoA:anthranilate N-indole-3-acetyltransferase LinB is a unique enzyme across all kingdoms of life. Conclusions This is the first report on bioactive secondary metabolites in the subphylum Kickxellomycotina and the first evidence for a non-clustered, two-step biosynthetic route of secondary metabolites in early-diverging fungi. Thus, the generally accepted “gene cluster hypothesis” for natural products needs to be reconsidered for early diverging fungi.

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