Mechanistic Insights into Dideoxygenation in Gentamicin Biosynthesis

Sicong Li; Priscila Dos Santos Bury; Fanglu Huang; Junhong Guo; Guo Sun; Anna Reva; Chuan Huang; Xinyun Jian; Yuan Li; Jiahai Zhou; Zixin Deng; Finian J. Leeper; Peter F. Leadlay; Marcio V.B. Dias; Yuhui Sun

doi:10.1021/acscatal.1c03508

Mechanistic Insights into Dideoxygenation in Gentamicin Biosynthesis

Sicong Li, Priscila Dos Santos Bury, Fanglu Huang, Junhong Guo, Guo Sun, Anna Reva, Chuan Huang, Xinyun Jian, Yuan Li, Jiahai Zhou, Zixin Deng, Finian J. Leeper, Peter F. Leadlay, Marcio V.B. Dias, Yuhui Sun

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

10 Citations (Scopus)

Abstract

Gentamicin is an important aminoglycoside antibiotic used for treatment of infections caused by Gram-negative bacteria. Although most of the biosynthetic pathways of gentamicin have been elucidated, a remaining intriguing question is how the intermediates JI-20A and JI-20B undergo a dideoxygenation to form gentamicin C complex. Here we show that the dideoxygenation process starts with GenP-catalyzed phosphorylation of JI-20A and JI-20Ba. The phosphorylated products are successively modified by concerted actions of two PLP (pyridoxal 5′-phosphate)-dependent enzymes: elimination of water and then phosphate by GenB3 and double bond migration by GenB4. Each of these reactions liberates an imine which hydrolyses to a ketone or aldehyde and is then reaminated by GenB3 using an amino donor. Importantly, crystal structures of GenB3 and GenB4 have guided site-directed mutagenesis to reveal crucial residues for the enzymes’ functions. We propose catalytic mechanisms for GenB3 and GenB4, which shed light on the already unrivalled catalytic versatility of PLP-dependent enzymes.

Original language	English
Pages (from-to)	12274-12283
Number of pages	10
Journal	ACS Catalysis
Volume	11
Issue number	19
DOIs	https://doi.org/10.1021/acscatal.1c03508
Publication status	Published - 1 Oct 2021
Externally published	Yes

Keywords

aminoglycoside biosynthesis
antibiotic
crystal structure
deoxygenation
PLP-dependent enzyme

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10.1021/acscatal.1c03508Licence: CC BY-NC-ND

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title = "Mechanistic Insights into Dideoxygenation in Gentamicin Biosynthesis",

abstract = "Gentamicin is an important aminoglycoside antibiotic used for treatment of infections caused by Gram-negative bacteria. Although most of the biosynthetic pathways of gentamicin have been elucidated, a remaining intriguing question is how the intermediates JI-20A and JI-20B undergo a dideoxygenation to form gentamicin C complex. Here we show that the dideoxygenation process starts with GenP-catalyzed phosphorylation of JI-20A and JI-20Ba. The phosphorylated products are successively modified by concerted actions of two PLP (pyridoxal 5′-phosphate)-dependent enzymes: elimination of water and then phosphate by GenB3 and double bond migration by GenB4. Each of these reactions liberates an imine which hydrolyses to a ketone or aldehyde and is then reaminated by GenB3 using an amino donor. Importantly, crystal structures of GenB3 and GenB4 have guided site-directed mutagenesis to reveal crucial residues for the enzymes{\textquoteright} functions. We propose catalytic mechanisms for GenB3 and GenB4, which shed light on the already unrivalled catalytic versatility of PLP-dependent enzymes.",

keywords = "aminoglycoside biosynthesis, antibiotic, crystal structure, deoxygenation, PLP-dependent enzyme",

author = "Sicong Li and \{Santos Bury\}, \{Priscila Dos\} and Fanglu Huang and Junhong Guo and Guo Sun and Anna Reva and Chuan Huang and Xinyun Jian and Yuan Li and Jiahai Zhou and Zixin Deng and Leeper, \{Finian J.\} and Leadlay, \{Peter F.\} and Dias, \{Marcio V.B.\} and Yuhui Sun",

note = "Funding Information: This work was supported by the National Key R\&D Program of China (2018YFA0903200) and the Funds for International Cooperation and Exchange of the National Natural Science Foundation of China (31920103001) to Y.S., the S{\~a}o Paulo Research Foundation (FAPESP; 2010/15971-3, 2014/50324-0, 2015/09188-8, and 2018/00351-1) to M.V.B.D., the fellowship from FAPESP (14/07843–6) to P.S.B., the Medical Research Council (MRC) Grants G1001687 and MR/M019020/1 to P.F.L., and the MRC postgraduate studentship (1343325) to A.R. Publisher Copyright: {\textcopyright} 2021 The Authors. Published by American Chemical Society",

year = "2021",

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day = "1",

doi = "10.1021/acscatal.1c03508",

language = "English",

volume = "11",

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journal = "ACS Catalysis",

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T1 - Mechanistic Insights into Dideoxygenation in Gentamicin Biosynthesis

AU - Li, Sicong

AU - Santos Bury, Priscila Dos

AU - Huang, Fanglu

AU - Guo, Junhong

AU - Sun, Guo

AU - Reva, Anna

AU - Huang, Chuan

AU - Jian, Xinyun

AU - Li, Yuan

AU - Zhou, Jiahai

AU - Deng, Zixin

AU - Leeper, Finian J.

AU - Leadlay, Peter F.

AU - Dias, Marcio V.B.

AU - Sun, Yuhui

N1 - Funding Information: This work was supported by the National Key R&D Program of China (2018YFA0903200) and the Funds for International Cooperation and Exchange of the National Natural Science Foundation of China (31920103001) to Y.S., the São Paulo Research Foundation (FAPESP; 2010/15971-3, 2014/50324-0, 2015/09188-8, and 2018/00351-1) to M.V.B.D., the fellowship from FAPESP (14/07843–6) to P.S.B., the Medical Research Council (MRC) Grants G1001687 and MR/M019020/1 to P.F.L., and the MRC postgraduate studentship (1343325) to A.R. Publisher Copyright: © 2021 The Authors. Published by American Chemical Society

PY - 2021/10/1

Y1 - 2021/10/1

N2 - Gentamicin is an important aminoglycoside antibiotic used for treatment of infections caused by Gram-negative bacteria. Although most of the biosynthetic pathways of gentamicin have been elucidated, a remaining intriguing question is how the intermediates JI-20A and JI-20B undergo a dideoxygenation to form gentamicin C complex. Here we show that the dideoxygenation process starts with GenP-catalyzed phosphorylation of JI-20A and JI-20Ba. The phosphorylated products are successively modified by concerted actions of two PLP (pyridoxal 5′-phosphate)-dependent enzymes: elimination of water and then phosphate by GenB3 and double bond migration by GenB4. Each of these reactions liberates an imine which hydrolyses to a ketone or aldehyde and is then reaminated by GenB3 using an amino donor. Importantly, crystal structures of GenB3 and GenB4 have guided site-directed mutagenesis to reveal crucial residues for the enzymes’ functions. We propose catalytic mechanisms for GenB3 and GenB4, which shed light on the already unrivalled catalytic versatility of PLP-dependent enzymes.

AB - Gentamicin is an important aminoglycoside antibiotic used for treatment of infections caused by Gram-negative bacteria. Although most of the biosynthetic pathways of gentamicin have been elucidated, a remaining intriguing question is how the intermediates JI-20A and JI-20B undergo a dideoxygenation to form gentamicin C complex. Here we show that the dideoxygenation process starts with GenP-catalyzed phosphorylation of JI-20A and JI-20Ba. The phosphorylated products are successively modified by concerted actions of two PLP (pyridoxal 5′-phosphate)-dependent enzymes: elimination of water and then phosphate by GenB3 and double bond migration by GenB4. Each of these reactions liberates an imine which hydrolyses to a ketone or aldehyde and is then reaminated by GenB3 using an amino donor. Importantly, crystal structures of GenB3 and GenB4 have guided site-directed mutagenesis to reveal crucial residues for the enzymes’ functions. We propose catalytic mechanisms for GenB3 and GenB4, which shed light on the already unrivalled catalytic versatility of PLP-dependent enzymes.

KW - aminoglycoside biosynthesis

KW - antibiotic

KW - crystal structure

KW - deoxygenation

KW - PLP-dependent enzyme

UR - https://www.scopus.com/pages/publications/85117602110

U2 - 10.1021/acscatal.1c03508

DO - 10.1021/acscatal.1c03508

M3 - Article

AN - SCOPUS:85117602110

SN - 2155-5435

VL - 11

SP - 12274

EP - 12283

JO - ACS Catalysis

JF - ACS Catalysis

IS - 19

ER -

Mechanistic Insights into Dideoxygenation in Gentamicin Biosynthesis

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Keywords

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