Accramycin A, a New Aromatic Polyketide, from the Soil Bacterium, Streptomyces sp. MA37

Fleurdeliz Maglangit; Qing Fang; Valentin Leman; Sylvia Soldatou; Rainer Ebel; Kwaku Kyeremeh; Hai Deng

doi:10.3390/molecules24183384

Accramycin A, a New Aromatic Polyketide, from the Soil Bacterium, Streptomyces sp. MA37

Fleurdeliz Maglangit^* (Corresponding Author), Qing Fang, Valentin Leman, Sylvia Soldatou, Rainer Ebel, Kwaku Kyeremeh, Hai Deng^* (Corresponding Author)

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

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Abstract

Drug-like molecules are known to contain many different building blocks with great potential as pharmacophores for drug discovery. The continued search for unique scaffolds in our laboratory led to the isolation of a novel Ghanaian soil bacterium, Streptomyces sp. MA37. This strain produces many bioactive molecules, most of which belong to carbazoles, pyrrolizidines, and fluorinated metabolites. Further probing of the metabolites of MA37 has led to the discovery of a new naphthacene-type aromatic natural product, which we have named accramycin A 1. This molecule was isolated using an HPLC-photodiode array (PDA) guided isolation process and MS/MS molecular networking. The structure of 1 was characterized by detailed analysis of LC-MS, UV, 1D, and 2D NMR data. Preliminary studies on the antibacterial properties of 1 using Group B Streptococcus (GBS) produced a minimum inhibitory concentration (MIC) of 27 µg/mL. This represents the first report of such bioactivity amongst the naphthacene-type aromatic polyketides, and also suggests the possibility for the further development of potent molecules against GBS based on the accramycin scaffold. A putative acc biosynthetic pathway for accramycin, featuring a tridecaketide-specific type II polyketide synthase, was proposed.

Original language	English
Article number	3384
Journal	Molecules
Volume	24
Issue number	18
DOIs	https://doi.org/10.3390/molecules24183384
Publication status	Published - 17 Sept 2019

Bibliographical note

Funding: FM thanks the University of the Philippines for the Faculty, Reps and Staff Development Program (FRAS DP) for the PhD grant fellowship. HD and KK thank the financial supports of Leverhulme Trust-Royal Society Africa award (AA090088) and MRC African Research Leaders Award (MR/S00520X/1). R.E. and S.S. are grateful to British Council/Newton Fund for financial support through the Institutional Links scheme (Project No. 261781172). QF is grateful to the University of Aberdeen Elphinstone Scholarship and Scottish Funding Council/ScotCHEM for financial support through the PEER/PERCE Funding.

Keywords

accramycin
naphthacene
type II polyketide
Streptomyces sp. MA37
Group B streptococcus
BETA-LACTAM RESISTANCE
ANTIBIOTICS
CIRCUMVENTORS
NONPREGNANT ADULTS
DEREPLICATION
NATURAL-PRODUCTS
NEOCARAZOSTATIN
Streptomyces sp
Group B Streptococcus
BIOSYNTHESIS
NAPHTHACEMYCINS
B STREPTOCOCCAL DISEASE
MA37

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title = "Accramycin A, a New Aromatic Polyketide, from the Soil Bacterium, Streptomyces sp. MA37",

abstract = "Drug-like molecules are known to contain many different building blocks with great potential as pharmacophores for drug discovery. The continued search for unique scaffolds in our laboratory led to the isolation of a novel Ghanaian soil bacterium, Streptomyces sp. MA37. This strain produces many bioactive molecules, most of which belong to carbazoles, pyrrolizidines, and fluorinated metabolites. Further probing of the metabolites of MA37 has led to the discovery of a new naphthacene-type aromatic natural product, which we have named accramycin A 1. This molecule was isolated using an HPLC-photodiode array (PDA) guided isolation process and MS/MS molecular networking. The structure of 1 was characterized by detailed analysis of LC-MS, UV, 1D, and 2D NMR data. Preliminary studies on the antibacterial properties of 1 using Group B Streptococcus (GBS) produced a minimum inhibitory concentration (MIC) of 27 µg/mL. This represents the first report of such bioactivity amongst the naphthacene-type aromatic polyketides, and also suggests the possibility for the further development of potent molecules against GBS based on the accramycin scaffold. A putative acc biosynthetic pathway for accramycin, featuring a tridecaketide-specific type II polyketide synthase, was proposed.",

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author = "Fleurdeliz Maglangit and Qing Fang and Valentin Leman and Sylvia Soldatou and Rainer Ebel and Kwaku Kyeremeh and Hai Deng",

note = "Funding: FM thanks the University of the Philippines for the Faculty, Reps and Staff Development Program (FRAS DP) for the PhD grant fellowship. HD and KK thank the financial supports of Leverhulme Trust-Royal Society Africa award (AA090088) and MRC African Research Leaders Award (MR/S00520X/1). R.E. and S.S. are grateful to British Council/Newton Fund for financial support through the Institutional Links scheme (Project No. 261781172). QF is grateful to the University of Aberdeen Elphinstone Scholarship and Scottish Funding Council/ScotCHEM for financial support through the PEER/PERCE Funding. ",

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T1 - Accramycin A, a New Aromatic Polyketide, from the Soil Bacterium, Streptomyces sp. MA37

AU - Maglangit, Fleurdeliz

AU - Fang, Qing

AU - Leman, Valentin

AU - Soldatou, Sylvia

AU - Ebel, Rainer

AU - Kyeremeh, Kwaku

AU - Deng, Hai

N1 - Funding: FM thanks the University of the Philippines for the Faculty, Reps and Staff Development Program (FRAS DP) for the PhD grant fellowship. HD and KK thank the financial supports of Leverhulme Trust-Royal Society Africa award (AA090088) and MRC African Research Leaders Award (MR/S00520X/1). R.E. and S.S. are grateful to British Council/Newton Fund for financial support through the Institutional Links scheme (Project No. 261781172). QF is grateful to the University of Aberdeen Elphinstone Scholarship and Scottish Funding Council/ScotCHEM for financial support through the PEER/PERCE Funding.

PY - 2019/9/17

Y1 - 2019/9/17

N2 - Drug-like molecules are known to contain many different building blocks with great potential as pharmacophores for drug discovery. The continued search for unique scaffolds in our laboratory led to the isolation of a novel Ghanaian soil bacterium, Streptomyces sp. MA37. This strain produces many bioactive molecules, most of which belong to carbazoles, pyrrolizidines, and fluorinated metabolites. Further probing of the metabolites of MA37 has led to the discovery of a new naphthacene-type aromatic natural product, which we have named accramycin A 1. This molecule was isolated using an HPLC-photodiode array (PDA) guided isolation process and MS/MS molecular networking. The structure of 1 was characterized by detailed analysis of LC-MS, UV, 1D, and 2D NMR data. Preliminary studies on the antibacterial properties of 1 using Group B Streptococcus (GBS) produced a minimum inhibitory concentration (MIC) of 27 µg/mL. This represents the first report of such bioactivity amongst the naphthacene-type aromatic polyketides, and also suggests the possibility for the further development of potent molecules against GBS based on the accramycin scaffold. A putative acc biosynthetic pathway for accramycin, featuring a tridecaketide-specific type II polyketide synthase, was proposed.

AB - Drug-like molecules are known to contain many different building blocks with great potential as pharmacophores for drug discovery. The continued search for unique scaffolds in our laboratory led to the isolation of a novel Ghanaian soil bacterium, Streptomyces sp. MA37. This strain produces many bioactive molecules, most of which belong to carbazoles, pyrrolizidines, and fluorinated metabolites. Further probing of the metabolites of MA37 has led to the discovery of a new naphthacene-type aromatic natural product, which we have named accramycin A 1. This molecule was isolated using an HPLC-photodiode array (PDA) guided isolation process and MS/MS molecular networking. The structure of 1 was characterized by detailed analysis of LC-MS, UV, 1D, and 2D NMR data. Preliminary studies on the antibacterial properties of 1 using Group B Streptococcus (GBS) produced a minimum inhibitory concentration (MIC) of 27 µg/mL. This represents the first report of such bioactivity amongst the naphthacene-type aromatic polyketides, and also suggests the possibility for the further development of potent molecules against GBS based on the accramycin scaffold. A putative acc biosynthetic pathway for accramycin, featuring a tridecaketide-specific type II polyketide synthase, was proposed.

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KW - type II polyketide

KW - Streptomyces sp. MA37

KW - Group B streptococcus

KW - BETA-LACTAM RESISTANCE

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KW - CIRCUMVENTORS

KW - NONPREGNANT ADULTS

KW - DEREPLICATION

KW - NATURAL-PRODUCTS

KW - NEOCARAZOSTATIN

KW - Streptomyces sp

KW - Group B Streptococcus

KW - BIOSYNTHESIS

KW - NAPHTHACEMYCINS

KW - B STREPTOCOCCAL DISEASE

KW - MA37

U2 - 10.3390/molecules24183384

DO - 10.3390/molecules24183384

M3 - Article

C2 - 31533358

SN - 1420-3049

VL - 24

JO - Molecules

JF - Molecules

IS - 18

M1 - 3384

ER -

Accramycin A, a New Aromatic Polyketide, from the Soil Bacterium, Streptomyces sp. MA37

Abstract

Bibliographical note

Keywords

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