Biomolecules (Oct 2019)

Characterization of the Ohmyungsamycin Biosynthetic Pathway and Generation of Derivatives with Improved Antituberculosis Activity

  • Eunji Kim,
  • Yern-Hyerk Shin,
  • Tae Ho Kim,
  • Woong Sub Byun,
  • Jinsheng Cui,
  • Young Eun Du,
  • Hyung-Ju Lim,
  • Myoung Chong Song,
  • An Sung Kwon,
  • Sang Hyeon Kang,
  • Jongheon Shin,
  • Sang Kook Lee,
  • Jichan Jang,
  • Dong-Chan Oh,
  • Yeo Joon Yoon

DOI
https://doi.org/10.3390/biom9110672
Journal volume & issue
Vol. 9, no. 11
p. 672

Abstract

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The cyclic depsipeptides ohmyungsamycin (OMS) A (1) and B (2), isolated from the marine-derived Streptomyces sp. SNJ042, contain two non-proteinogenic amino acid residues, β-hydroxy-l-phenylalanine (β-hydroxy-l-Phe) and 4-methoxy-l-tryptophan (4-methoxy-l-Trp). Draft genome sequencing of Streptomyces sp. SNJ042 revealed the OMS biosynthetic gene cluster consisting of a nonribosomal peptide synthetase (NRPS) gene and three genes for amino acid modification. By gene inactivation and analysis of the accumulated products, we found that OhmL, encoding a P450 gene, is an l-Phe β-hydroxylase. Furthermore, OhmK, encoding a Trp 2,3-dioxygenase homolog, and OhmJ, encoding an O-methyltransferase, are suggested to be involved in hydroxylation and O-methylation reactions, respectively, in the biosynthesis of 4-methoxy-l-Trp. In addition, the antiproliferative and antituberculosis activities of the OMS derivatives dehydroxy-OMS A (4) and demethoxy-OMS A (6) obtained from the mutant strains were evaluated in vitro. Interestingly, dehydroxy-OMS A (4) displayed significantly improved antituberculosis activity and decreased cytotoxicity compared to wild-type OMS A.

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