Total Synthesis and Structural Reassignment of the Antitubercular Natural Product Evybactin

Vladyslav Lysenko; Sangkeun Son; Monique E. Theriault; Cornelis J. Slingerland; Glenn Hauk; Laurence Cleenewerk; Alexander Speer; James M. Berger; Kim Lewis; Nathaniel I. Martin

doi:10.1002/chem.202403767

Total Synthesis and Structural Reassignment of the Antitubercular Natural Product Evybactin

Vladyslav Lysenko, Sangkeun Son, Monique E. Theriault, Cornelis J. Slingerland, Glenn Hauk, Laurence Cleenewerk, Alexander Speer, James M. Berger, Kim Lewis, Nathaniel I. Martin^*

^*Corresponding author for this work

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

2 Citations (Scopus)

Abstract

The escalating threat posed by antibiotic resistance is a global concern and underscores the need for new antibiotics. In this context, the recent discovery of evybactin, a nonribosomal depsipeptide antibiotic that selectively and potently inhibits the growth of M. tuberculosis, is particularly noteworthy. Here, we present the first total synthesis of this natural product, along with a revision of its assigned structure. Our studies revealed a disparity between the structure originally proposed for evybactin and its actual configuration. Specifically, the 3-methylhistidine residue present in the evybactin core macrocycle was found to be of the d-configuration rather than the previously assigned l-His(Me). Having addressed this, we further optimized our solid-phase synthetic route to provide access to evybactin on a multi-hundred-milligram scale. Access to such quantities will allow for more comprehensive studies with this promising antibiotic.

Original language	English
Journal	Chemistry - A European Journal
Early online date	2024
DOIs	https://doi.org/10.1002/chem.202403767
Publication status	E-pub ahead of print - 2024

Keywords

Antibiotic
Evybactin
Structural assignment
Total synthesis
Tuberculosis

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title = "Total Synthesis and Structural Reassignment of the Antitubercular Natural Product Evybactin",

abstract = "The escalating threat posed by antibiotic resistance is a global concern and underscores the need for new antibiotics. In this context, the recent discovery of evybactin, a nonribosomal depsipeptide antibiotic that selectively and potently inhibits the growth of M. tuberculosis, is particularly noteworthy. Here, we present the first total synthesis of this natural product, along with a revision of its assigned structure. Our studies revealed a disparity between the structure originally proposed for evybactin and its actual configuration. Specifically, the 3-methylhistidine residue present in the evybactin core macrocycle was found to be of the d-configuration rather than the previously assigned l-His(Me). Having addressed this, we further optimized our solid-phase synthetic route to provide access to evybactin on a multi-hundred-milligram scale. Access to such quantities will allow for more comprehensive studies with this promising antibiotic.",

keywords = "Antibiotic, Evybactin, Structural assignment, Total synthesis, Tuberculosis",

author = "Vladyslav Lysenko and Sangkeun Son and Theriault, {Monique E.} and Slingerland, {Cornelis J.} and Glenn Hauk and Laurence Cleenewerk and Alexander Speer and Berger, {James M.} and Kim Lewis and Martin, {Nathaniel I.}",

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year = "2024",

doi = "10.1002/chem.202403767",

language = "English",

journal = "Chemistry - A European Journal",

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T1 - Total Synthesis and Structural Reassignment of the Antitubercular Natural Product Evybactin

AU - Lysenko, Vladyslav

AU - Son, Sangkeun

AU - Theriault, Monique E.

AU - Slingerland, Cornelis J.

AU - Hauk, Glenn

AU - Cleenewerk, Laurence

AU - Speer, Alexander

AU - Berger, James M.

AU - Lewis, Kim

AU - Martin, Nathaniel I.

PY - 2024

Y1 - 2024

N2 - The escalating threat posed by antibiotic resistance is a global concern and underscores the need for new antibiotics. In this context, the recent discovery of evybactin, a nonribosomal depsipeptide antibiotic that selectively and potently inhibits the growth of M. tuberculosis, is particularly noteworthy. Here, we present the first total synthesis of this natural product, along with a revision of its assigned structure. Our studies revealed a disparity between the structure originally proposed for evybactin and its actual configuration. Specifically, the 3-methylhistidine residue present in the evybactin core macrocycle was found to be of the d-configuration rather than the previously assigned l-His(Me). Having addressed this, we further optimized our solid-phase synthetic route to provide access to evybactin on a multi-hundred-milligram scale. Access to such quantities will allow for more comprehensive studies with this promising antibiotic.

AB - The escalating threat posed by antibiotic resistance is a global concern and underscores the need for new antibiotics. In this context, the recent discovery of evybactin, a nonribosomal depsipeptide antibiotic that selectively and potently inhibits the growth of M. tuberculosis, is particularly noteworthy. Here, we present the first total synthesis of this natural product, along with a revision of its assigned structure. Our studies revealed a disparity between the structure originally proposed for evybactin and its actual configuration. Specifically, the 3-methylhistidine residue present in the evybactin core macrocycle was found to be of the d-configuration rather than the previously assigned l-His(Me). Having addressed this, we further optimized our solid-phase synthetic route to provide access to evybactin on a multi-hundred-milligram scale. Access to such quantities will allow for more comprehensive studies with this promising antibiotic.

KW - Antibiotic

KW - Evybactin

KW - Structural assignment

KW - Total synthesis

KW - Tuberculosis

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DO - 10.1002/chem.202403767

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SN - 0947-6539

JO - Chemistry - A European Journal

JF - Chemistry - A European Journal

ER -

Total Synthesis and Structural Reassignment of the Antitubercular Natural Product Evybactin

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Keywords

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