Microscale Parallel Synthesis of Acylated Aminotriazoles Enabling the Development of Factor XIIa and Thrombin Inhibitors

Simon Platte; Marvin Korff; Lukas Imberg; Ilker Balicioglu; Catharina Erbacher; Jonas M. Will; Constantin G. Daniliuc; Uwe Karst; Dmitrii V. Kalinin

doi:10.1002/cmdc.202100431

Microscale Parallel Synthesis of Acylated Aminotriazoles Enabling the Development of Factor XIIa and Thrombin Inhibitors

Simon Platte
, Marvin Korff
, Lukas Imberg
, Ilker Balicioglu
, Catharina Erbacher
, Jonas M. Will
, Constantin G. Daniliuc
, Uwe Karst
, Dmitrii V. Kalinin

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

21 Citations (Scopus)

Abstract

Herein we report a microscale parallel synthetic approach allowing for rapid access to libraries of N-acylated aminotriazoles and screening of their inhibitory activity against factor XIIa (FXIIa) and thrombin, which are targets for antithrombotic drugs. This approach, in combination with post-screening structure optimization, yielded a potent 7 nM inhibitor of FXIIa and a 25 nM thrombin inhibitor; both compounds showed no inhibition of the other tested serine proteases. Selected N-acylated aminotriazoles exhibited anticoagulant properties in vitro influencing the intrinsic blood coagulation pathway, but not extrinsic coagulation. Mechanistic studies of FXIIa inhibition suggested that synthesized N-acylated aminotriazoles are covalent inhibitors of FXIIa. These synthesized compounds may serve as a promising starting point for the development of novel antithrombotic drugs.

Original language	English
Pages (from-to)	3672-3690
Number of pages	19
Journal	ChemMedChem
Volume	16
Issue number	24
DOIs	https://doi.org/10.1002/cmdc.202100431
Publication status	Published - 14 Dec 2021
Externally published	Yes

Keywords

aminotriazoles
covalent inhibitors
enzyme inhibitors
FXIIa
microscale synthesis
parallel synthesis
qNMR
thrombin
thrombosis

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10.1002/cmdc.202100431

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title = "Microscale Parallel Synthesis of Acylated Aminotriazoles Enabling the Development of Factor XIIa and Thrombin Inhibitors",

abstract = "Herein we report a microscale parallel synthetic approach allowing for rapid access to libraries of N-acylated aminotriazoles and screening of their inhibitory activity against factor XIIa (FXIIa) and thrombin, which are targets for antithrombotic drugs. This approach, in combination with post-screening structure optimization, yielded a potent 7 nM inhibitor of FXIIa and a 25 nM thrombin inhibitor; both compounds showed no inhibition of the other tested serine proteases. Selected N-acylated aminotriazoles exhibited anticoagulant properties in vitro influencing the intrinsic blood coagulation pathway, but not extrinsic coagulation. Mechanistic studies of FXIIa inhibition suggested that synthesized N-acylated aminotriazoles are covalent inhibitors of FXIIa. These synthesized compounds may serve as a promising starting point for the development of novel antithrombotic drugs.",

keywords = "aminotriazoles, covalent inhibitors, enzyme inhibitors, FXIIa, microscale synthesis, parallel synthesis, qNMR, thrombin, thrombosis",

author = "Simon Platte and Marvin Korff and Lukas Imberg and Ilker Balicioglu and Catharina Erbacher and Will, \{Jonas M.\} and Daniliuc, \{Constantin G.\} and Uwe Karst and Kalinin, \{Dmitrii V.\}",

note = "Publisher Copyright: {\textcopyright} 2021 The Authors. ChemMedChem published by Wiley-VCH GmbH.",

year = "2021",

month = dec,

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doi = "10.1002/cmdc.202100431",

language = "English",

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AU - Platte, Simon

AU - Korff, Marvin

AU - Imberg, Lukas

AU - Balicioglu, Ilker

AU - Erbacher, Catharina

AU - Will, Jonas M.

AU - Daniliuc, Constantin G.

AU - Karst, Uwe

AU - Kalinin, Dmitrii V.

PY - 2021/12/14

Y1 - 2021/12/14

N2 - Herein we report a microscale parallel synthetic approach allowing for rapid access to libraries of N-acylated aminotriazoles and screening of their inhibitory activity against factor XIIa (FXIIa) and thrombin, which are targets for antithrombotic drugs. This approach, in combination with post-screening structure optimization, yielded a potent 7 nM inhibitor of FXIIa and a 25 nM thrombin inhibitor; both compounds showed no inhibition of the other tested serine proteases. Selected N-acylated aminotriazoles exhibited anticoagulant properties in vitro influencing the intrinsic blood coagulation pathway, but not extrinsic coagulation. Mechanistic studies of FXIIa inhibition suggested that synthesized N-acylated aminotriazoles are covalent inhibitors of FXIIa. These synthesized compounds may serve as a promising starting point for the development of novel antithrombotic drugs.

AB - Herein we report a microscale parallel synthetic approach allowing for rapid access to libraries of N-acylated aminotriazoles and screening of their inhibitory activity against factor XIIa (FXIIa) and thrombin, which are targets for antithrombotic drugs. This approach, in combination with post-screening structure optimization, yielded a potent 7 nM inhibitor of FXIIa and a 25 nM thrombin inhibitor; both compounds showed no inhibition of the other tested serine proteases. Selected N-acylated aminotriazoles exhibited anticoagulant properties in vitro influencing the intrinsic blood coagulation pathway, but not extrinsic coagulation. Mechanistic studies of FXIIa inhibition suggested that synthesized N-acylated aminotriazoles are covalent inhibitors of FXIIa. These synthesized compounds may serve as a promising starting point for the development of novel antithrombotic drugs.

KW - aminotriazoles

KW - covalent inhibitors

KW - enzyme inhibitors

KW - FXIIa

KW - microscale synthesis

KW - parallel synthesis

KW - qNMR

KW - thrombin

KW - thrombosis

UR - https://www.scopus.com/pages/publications/85111748138

U2 - 10.1002/cmdc.202100431

DO - 10.1002/cmdc.202100431

M3 - Article

C2 - 34278727

AN - SCOPUS:85111748138

SN - 1860-7179

VL - 16

SP - 3672

EP - 3690

JO - ChemMedChem

JF - ChemMedChem

IS - 24

ER -

Microscale Parallel Synthesis of Acylated Aminotriazoles Enabling the Development of Factor XIIa and Thrombin Inhibitors

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Keywords

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