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Literature DB >> 27651294

Thermodynamic properties of leukotriene A₄ hydrolase inhibitors.

Sandra K Wittmann¹, Lena Kalinowsky², Jan S Kramer³, René Bloecher⁴, Stefan Knapp⁵, Dieter Steinhilber⁶, Denys Pogoryelov⁷, Ewgenij Proschak⁸, Jan Heering⁹.

Abstract

The leukotriene A4 hydrolase (LTA4H) is a bifunctional enzyme, containing a peptidase and a hydrolase activity both activities having opposing functions regulating inflammatory response. The hydrolase activity is responsible for the conversion of leukotriene A4 to pro-inflammatory leukotriene B4, and hence, selective inhibitors of the hydrolase activity are of high pharmacological interest. Here we present the thermodynamic characterization of structurally distinct inhibitors of the LTA4H that occupy different regions of the binding site using different biophysical methods. An in silico method for the determination of stabilized water molecules in the binding site of the apo structure of LTA4H is used to interpret the measured thermodynamic data and provided insights for design of novel LTA4H inhibitors.

Entities: Chemical Gene

Keywords: Apo structure; LTA(4)H; Ligand binding; Water mapping

Mesh：

Substances：

Year: 2016 PMID： 27651294 DOI： 10.1016/j.bmc.2016.08.047

Source DB: PubMed Journal: Bioorg Med Chem ISSN： 0968-0896 Impact factor: 3.641

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Cited

4 in total

1. Computer-Aided Fragment Growing Strategies to Design Dual Inhibitors of Soluble Epoxide Hydrolase and LTA4 Hydrolase.

Authors: Lena Hefke; Kerstin Hiesinger; W Felix Zhu; Jan S Kramer; Ewgenij Proschak
Journal: ACS Med Chem Lett Date: 2020-04-08 Impact factor: 4.345

2. Substrate-dependent modulation of the leukotriene A₄ hydrolase aminopeptidase activity and effect in a murine model of acute lung inflammation.

Authors: Kyung Hyeon Lee; Nadia Fazal Ali; Soo Hyeon Lee; Zhimin Zhang; Marie Burdick; Zachary J Beaulac; Greg Petruncio; Linxia Li; Jiangdong Xiang; Ezra M Chung; Kenneth W Foreman; Schroeder M Noble; Yun M Shim; Mikell Paige
Journal: Sci Rep Date: 2022-06-08 Impact factor: 4.996

3. Design of Dual Inhibitors of Soluble Epoxide Hydrolase and LTA₄ Hydrolase.

Authors: Kerstin Hiesinger; Annika Schott; Jan S Kramer; René Blöcher; Finja Witt; Sandra K Wittmann; Dieter Steinhilber; Denys Pogoryelov; Jana Gerstmeier; Oliver Werz; Ewgenij Proschak
Journal: ACS Med Chem Lett Date: 2019-10-30 Impact factor: 4.345

4. Development and in vitro Profiling of Dual FXR/LTA4H Modulators.

Authors: Simone Schierle; Steffen Brunst; Moritz Helmstädter; Roland Ebert; Jan S Kramer; Dieter Steinhilber; Ewgenij Proschak; Daniel Merk
Journal: ChemMedChem Date: 2021-05-24 Impact factor: 3.466

4 in total

Thermodynamic properties of leukotriene A4 hydrolase inhibitors.

1. Computer-Aided Fragment Growing Strategies to Design Dual Inhibitors of Soluble Epoxide Hydrolase and LTA4 Hydrolase.

2. Substrate-dependent modulation of the leukotriene A4 hydrolase aminopeptidase activity and effect in a murine model of acute lung inflammation.

3. Design of Dual Inhibitors of Soluble Epoxide Hydrolase and LTA4 Hydrolase.

4. Development and in vitro Profiling of Dual FXR/LTA4H Modulators.

Thermodynamic properties of leukotriene A₄ hydrolase inhibitors.

2. Substrate-dependent modulation of the leukotriene A₄ hydrolase aminopeptidase activity and effect in a murine model of acute lung inflammation.

3. Design of Dual Inhibitors of Soluble Epoxide Hydrolase and LTA₄ Hydrolase.