Thiol-to-amine cyclization reaction enables screening of large libraries of macrocyclic compounds and the generation of sub-kilodalton ligands

S. S. Kale; M. Bergeron-Brlek; Y. Wu; M. G. Kumar; M. V. Pham; J. Bortoli; J. Vesin; X. D. Kong; J. Franco Machado; K. Deyle; P. Gonschorek; G. Turcatti; L. Cendron; A. Angelini; C. Heinis

doi:10.1126/sciadv.aaw2851

Thiol-to-amine cyclization reaction enables screening of large libraries of macrocyclic compounds and the generation of sub-kilodalton ligands

S. S. Kale
, M. Bergeron-Brlek
, Y. Wu
, M. G. Kumar
, M. V. Pham
, J. Bortoli
, J. Vesin
, X. D. Kong
, J. Franco Machado
, K. Deyle
, P. Gonschorek
, G. Turcatti
, L. Cendron
, A. Angelini
, C. Heinis

Résultats de recherche: Contribution à un journal › Article publié dans une revue, révisé par les pairs › Revue par des pairs

32 Citations (Scopus)

Résumé

Macrocyclic compounds are an attractive modality for drug development, but the limited availability of large, structurally diverse macrocyclic libraries hampers the discovery of leads. Here, we describe the discovery of efficient macrocyclization reactions based on thiol-to-amine ligations using bis-electrophiles, their application to synthesize and screen large libraries of macrocyclic compounds, and the identification of potent small macrocyclic ligands. The thiol-to-amine cyclization reactions showed unexpectedly high yields for a wide substrate range, which obviated product purification and enabled the generation and screening of an 8988 macrocycle library with a comparatively small effort. X-ray structure analysis of an identified thrombin inhibitor (K_i = 42 ± 5 nM) revealed a snug fit with the target, validating the strategy of screening large libraries with a high skeletal diversity. The approach provides a route for screening large sub-kilodalton macrocyclic libraries and may be applied to many challenging drug targets.

langue originale	Anglais
Numéro d'article	eaaw2851
journal	Science Advances
Volume	5
Numéro de publication	8
Les DOIs	https://doi.org/10.1126/sciadv.aaw2851
état	Publié - 21 août 2019
Modification externe	Oui

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10.1126/sciadv.aaw2851

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Kale, S. S., Bergeron-Brlek, M., Wu, Y., Kumar, M. G., Pham, M. V., Bortoli, J., Vesin, J., Kong, X. D., Franco Machado, J., Deyle, K., Gonschorek, P., Turcatti, G., Cendron, L., Angelini, A., & Heinis, C. (2019). Thiol-to-amine cyclization reaction enables screening of large libraries of macrocyclic compounds and the generation of sub-kilodalton ligands. Science Advances, 5(8), Article eaaw2851. https://doi.org/10.1126/sciadv.aaw2851

@article{1fbb7b8c8a684a379a4959935cb02cc1,

title = "Thiol-to-amine cyclization reaction enables screening of large libraries of macrocyclic compounds and the generation of sub-kilodalton ligands",

abstract = "Macrocyclic compounds are an attractive modality for drug development, but the limited availability of large, structurally diverse macrocyclic libraries hampers the discovery of leads. Here, we describe the discovery of efficient macrocyclization reactions based on thiol-to-amine ligations using bis-electrophiles, their application to synthesize and screen large libraries of macrocyclic compounds, and the identification of potent small macrocyclic ligands. The thiol-to-amine cyclization reactions showed unexpectedly high yields for a wide substrate range, which obviated product purification and enabled the generation and screening of an 8988 macrocycle library with a comparatively small effort. X-ray structure analysis of an identified thrombin inhibitor (Ki = 42 ± 5 nM) revealed a snug fit with the target, validating the strategy of screening large libraries with a high skeletal diversity. The approach provides a route for screening large sub-kilodalton macrocyclic libraries and may be applied to many challenging drug targets.",

author = "Kale, \{S. S.\} and M. Bergeron-Brlek and Y. Wu and Kumar, \{M. G.\} and Pham, \{M. V.\} and J. Bortoli and J. Vesin and Kong, \{X. D.\} and \{Franco Machado\}, J. and K. Deyle and P. Gonschorek and G. Turcatti and L. Cendron and A. Angelini and C. Heinis",

note = "Publisher Copyright: Copyright {\textcopyright} 2019 The Authors,",

year = "2019",

month = aug,

day = "21",

doi = "10.1126/sciadv.aaw2851",

language = "English",

volume = "5",

journal = "Science Advances",

issn = "2375-2548",

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Kale, SS, Bergeron-Brlek, M, Wu, Y, Kumar, MG, Pham, MV, Bortoli, J, Vesin, J, Kong, XD, Franco Machado, J, Deyle, K, Gonschorek, P, Turcatti, G, Cendron, L, Angelini, A & Heinis, C 2019, 'Thiol-to-amine cyclization reaction enables screening of large libraries of macrocyclic compounds and the generation of sub-kilodalton ligands', Science Advances, VOL. 5, Numéro 8, eaaw2851. https://doi.org/10.1126/sciadv.aaw2851

Thiol-to-amine cyclization reaction enables screening of large libraries of macrocyclic compounds and the generation of sub-kilodalton ligands. / Kale, S. S.; Bergeron-Brlek, M.; Wu, Y. et al.
Dans: Science Advances, Vol 5, Numéro 8, eaaw2851, 21.08.2019.

Résultats de recherche: Contribution à un journal › Article publié dans une revue, révisé par les pairs › Revue par des pairs

TY - JOUR

T1 - Thiol-to-amine cyclization reaction enables screening of large libraries of macrocyclic compounds and the generation of sub-kilodalton ligands

AU - Kale, S. S.

AU - Bergeron-Brlek, M.

AU - Wu, Y.

AU - Kumar, M. G.

AU - Pham, M. V.

AU - Bortoli, J.

AU - Vesin, J.

AU - Kong, X. D.

AU - Franco Machado, J.

AU - Deyle, K.

AU - Gonschorek, P.

AU - Turcatti, G.

AU - Cendron, L.

AU - Angelini, A.

AU - Heinis, C.

PY - 2019/8/21

Y1 - 2019/8/21

N2 - Macrocyclic compounds are an attractive modality for drug development, but the limited availability of large, structurally diverse macrocyclic libraries hampers the discovery of leads. Here, we describe the discovery of efficient macrocyclization reactions based on thiol-to-amine ligations using bis-electrophiles, their application to synthesize and screen large libraries of macrocyclic compounds, and the identification of potent small macrocyclic ligands. The thiol-to-amine cyclization reactions showed unexpectedly high yields for a wide substrate range, which obviated product purification and enabled the generation and screening of an 8988 macrocycle library with a comparatively small effort. X-ray structure analysis of an identified thrombin inhibitor (Ki = 42 ± 5 nM) revealed a snug fit with the target, validating the strategy of screening large libraries with a high skeletal diversity. The approach provides a route for screening large sub-kilodalton macrocyclic libraries and may be applied to many challenging drug targets.

AB - Macrocyclic compounds are an attractive modality for drug development, but the limited availability of large, structurally diverse macrocyclic libraries hampers the discovery of leads. Here, we describe the discovery of efficient macrocyclization reactions based on thiol-to-amine ligations using bis-electrophiles, their application to synthesize and screen large libraries of macrocyclic compounds, and the identification of potent small macrocyclic ligands. The thiol-to-amine cyclization reactions showed unexpectedly high yields for a wide substrate range, which obviated product purification and enabled the generation and screening of an 8988 macrocycle library with a comparatively small effort. X-ray structure analysis of an identified thrombin inhibitor (Ki = 42 ± 5 nM) revealed a snug fit with the target, validating the strategy of screening large libraries with a high skeletal diversity. The approach provides a route for screening large sub-kilodalton macrocyclic libraries and may be applied to many challenging drug targets.

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DO - 10.1126/sciadv.aaw2851

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AN - SCOPUS:85071245079

SN - 2375-2548

VL - 5

JO - Science Advances

JF - Science Advances

IS - 8

M1 - eaaw2851

ER -