. 2020 Jul 17;11(31):8249-8255.

doi: 10.1039/d0sc01928c.

Production of novel pladienolide analogues through native expression of a pathway-specific activator

Thomas J Booth¹, John A Kalaitzis², Daniel Vuong³, Andrew Crombie³, Ernest Lacey³, Andrew M Piggott², Barrie Wilkinson¹

Affiliations

¹ Department of Molecular Microbiology, John Innes Centre Norwich Research Park Norwich NR4 7UH UK barrie.wilkinson@jic.ac.uk.
² Department of Molecular Sciences, Macquarie University NSW 2109 Australia andrew.piggott@mq.edu.au.
³ Microbial Screening Technologies Smithfield NSW 2164 Australia elacey@microbialscreening.com.

PMID: 34094178
PMCID: PMC8163091
DOI: 10.1039/d0sc01928c

Production of novel pladienolide analogues through native expression of a pathway-specific activator

Thomas J Booth et al. Chem Sci. 2020.

. 2020 Jul 17;11(31):8249-8255.

doi: 10.1039/d0sc01928c.

Authors

Thomas J Booth¹, John A Kalaitzis², Daniel Vuong³, Andrew Crombie³, Ernest Lacey³, Andrew M Piggott², Barrie Wilkinson¹

Affiliations

¹ Department of Molecular Microbiology, John Innes Centre Norwich Research Park Norwich NR4 7UH UK barrie.wilkinson@jic.ac.uk.
² Department of Molecular Sciences, Macquarie University NSW 2109 Australia andrew.piggott@mq.edu.au.
³ Microbial Screening Technologies Smithfield NSW 2164 Australia elacey@microbialscreening.com.

PMID: 34094178
PMCID: PMC8163091
DOI: 10.1039/d0sc01928c

Abstract

Aberrant splicing of pre-mRNA is implicated in many human genetic disorders. Small molecules that target the spliceosome are important leads as therapeutics and research tools, and one compound of significant interest is the polyketide natural product pladienolide B. Here, we describe the reactivation of quiescent pladienolide B production in the domesticated lab strain Streptomyces platensis AS6200 by overexpression of the pathway-specific activator PldR. The resulting dysregulation of the biosynthetic genes led to the accumulation and isolation of five additional intermediate or shunt metabolites of pladienolide B biosynthesis, including three previously unreported congeners. These compounds likely comprise the entire pladienolide biosynthetic pathway and demonstrate the link between polyketide tailoring reactions and bioactivity, particularly the importance of the 18,19-epoxide. Each congener demonstrated specific inhibitory activity against mammalian cell lines, with successive modifications leading to increased activity (IC₅₀: 8 mM to 5 μM).

This journal is © The Royal Society of Chemistry.

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Conflict of interest statement

The authors declare no competing interest.

Figures

Fig. 1. Chemical structures of natural product splicing modulators: (a) spliceostatin A from *Burkholderia* sp. No. 2663, herboxidiene from *Streptomyces chromofuscus* ATCC 49982, and pladienolide B (1) from *Streptomyces platensis* Mer-11107 and; (b) synthetic analogues of 1.

Fig. 2. Comparison of the pladienolide (pld) biosynthetic gene clusters of (a) *S. platensis* Mer-11107 and (b) *S. platensis* AS6200 and *S. platensis* MA5455 and (c) pladienolide B (1) biosynthetic pathway including polyketide synthesis and tailoring steps.

Fig. 3. Biosynthesis of pladienolide B (1) and congeners (**2–6**) produced by *S. platensis* AS6242 identified in this study. The polyketide product of PldAI-V is acetylated by PldC followed by hydroxylation/epoxidation by PldB/PldD to produce 1. Spontaneous intramolecular cyclisation of 1 yields 6.

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Production of novel pladienolide analogues through native expression of a pathway-specific activator

Affiliations

Production of novel pladienolide analogues through native expression of a pathway-specific activator

Authors

Affiliations

Abstract

Conflict of interest statement

Figures

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References

Grants and funding

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Full Text Sources

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