Importance of the Proximity and Orientation of Ligand-Linkage to the Design of Cinnamate-GW9662 Hybrid Compounds as Covalent PPARγ Agonists
Covalent agonists of PPARγ cause unique receptor conformational changes and behave as selective PPARγ modulators, whereas there are few covalent agonists other than endogenous unsaturated fatty acids metabolites. Previously, we established a cell-based strategy to identify new PPAR...
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MDPI AG
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| Series: | Molecules |
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| Online Access: | https://www.mdpi.com/1420-3049/24/10/2019 |
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doaj-b7a1ac4a699440e59609e61f7ac4a4712020-11-25T01:51:45ZengMDPI AGMolecules1420-30492019-05-012410201910.3390/molecules24102019molecules24102019Importance of the Proximity and Orientation of Ligand-Linkage to the Design of Cinnamate-GW9662 Hybrid Compounds as Covalent PPARγ AgonistsYuki Utsugi0Hirona Kobuchi1Yukio Kawamura2Ahmed Salahelden Aboelhamd Atito3Masaya Nagao4Hiroko Isoda5Yusaku Miyamae6College of Agro-Biological Resources Sciences, University of Tsukuba, Ibaraki 305-8572, JapanDepartment of Food and Nutrition, Faculty of Home Economics, Kyoto Women’s University, Kyoto 605-8501, JapanDepartment of Food and Nutrition, Faculty of Home Economics, Kyoto Women’s University, Kyoto 605-8501, JapanMaster’s/Doctoral Program in Life Science Innovation, School of Integrative and Global Majors, University of Tsukuba, Ibaraki 305-8572, JapanGraduate School of Biostudies, Kyoto University, Kyoto 606-8502, JapanMaster’s/Doctoral Program in Life Science Innovation, School of Integrative and Global Majors, University of Tsukuba, Ibaraki 305-8572, JapanMaster’s/Doctoral Program in Life Science Innovation, School of Integrative and Global Majors, University of Tsukuba, Ibaraki 305-8572, JapanCovalent agonists of PPARγ cause unique receptor conformational changes and behave as selective PPARγ modulators, whereas there are few covalent agonists other than endogenous unsaturated fatty acids metabolites. Previously, we established a cell-based strategy to identify new PPARγ ligands and synthesized a new-type of covalent agonist that possesses the hybrid structure of a plant-derived cinnamic acid derivative and GW9662, a covalent antagonist. Herein, we report six analogues that differ in how the two fragments are linked together. Compounds with a simplified linker showed potent agonistic activity with improved EC<sub>50</sub> values (less than 5 nM), indicating that close proximity between the two fragments improves binding affinity. When the position of cinnamic acid moiety was placed at 4′ carbon of aniline ring, PPARγ agonist activity was completely abolished. Docking studies suggested that the activation profile likely depends on interaction with the cavity around helix 3, β-sheet, and Ω-loop region in the ligand-binding domain. Furthermore, a cell-based assay revealed that agonist-type compounds activate PPARγ transcription in a manner dependent on covalent linkage with the Cys285 residue leading to prolonged transactivation. This activation feature reflects pharmacological benefits of covalent drugs, suggesting that these hybrid compounds may serve as potential leads for a new-class of covalent PPARγ ligands.https://www.mdpi.com/1420-3049/24/10/2019PPARγcovalent agonistligand-linkagestructure-activity relationship |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Yuki Utsugi Hirona Kobuchi Yukio Kawamura Ahmed Salahelden Aboelhamd Atito Masaya Nagao Hiroko Isoda Yusaku Miyamae |
| spellingShingle |
Yuki Utsugi Hirona Kobuchi Yukio Kawamura Ahmed Salahelden Aboelhamd Atito Masaya Nagao Hiroko Isoda Yusaku Miyamae Importance of the Proximity and Orientation of Ligand-Linkage to the Design of Cinnamate-GW9662 Hybrid Compounds as Covalent PPARγ Agonists Molecules PPARγ covalent agonist ligand-linkage structure-activity relationship |
| author_facet |
Yuki Utsugi Hirona Kobuchi Yukio Kawamura Ahmed Salahelden Aboelhamd Atito Masaya Nagao Hiroko Isoda Yusaku Miyamae |
| author_sort |
Yuki Utsugi |
| title |
Importance of the Proximity and Orientation of Ligand-Linkage to the Design of Cinnamate-GW9662 Hybrid Compounds as Covalent PPARγ Agonists |
| title_short |
Importance of the Proximity and Orientation of Ligand-Linkage to the Design of Cinnamate-GW9662 Hybrid Compounds as Covalent PPARγ Agonists |
| title_full |
Importance of the Proximity and Orientation of Ligand-Linkage to the Design of Cinnamate-GW9662 Hybrid Compounds as Covalent PPARγ Agonists |
| title_fullStr |
Importance of the Proximity and Orientation of Ligand-Linkage to the Design of Cinnamate-GW9662 Hybrid Compounds as Covalent PPARγ Agonists |
| title_full_unstemmed |
Importance of the Proximity and Orientation of Ligand-Linkage to the Design of Cinnamate-GW9662 Hybrid Compounds as Covalent PPARγ Agonists |
| title_sort |
importance of the proximity and orientation of ligand-linkage to the design of cinnamate-gw9662 hybrid compounds as covalent pparγ agonists |
| publisher |
MDPI AG |
| series |
Molecules |
| issn |
1420-3049 |
| publishDate |
2019-05-01 |
| description |
Covalent agonists of PPARγ cause unique receptor conformational changes and behave as selective PPARγ modulators, whereas there are few covalent agonists other than endogenous unsaturated fatty acids metabolites. Previously, we established a cell-based strategy to identify new PPARγ ligands and synthesized a new-type of covalent agonist that possesses the hybrid structure of a plant-derived cinnamic acid derivative and GW9662, a covalent antagonist. Herein, we report six analogues that differ in how the two fragments are linked together. Compounds with a simplified linker showed potent agonistic activity with improved EC<sub>50</sub> values (less than 5 nM), indicating that close proximity between the two fragments improves binding affinity. When the position of cinnamic acid moiety was placed at 4′ carbon of aniline ring, PPARγ agonist activity was completely abolished. Docking studies suggested that the activation profile likely depends on interaction with the cavity around helix 3, β-sheet, and Ω-loop region in the ligand-binding domain. Furthermore, a cell-based assay revealed that agonist-type compounds activate PPARγ transcription in a manner dependent on covalent linkage with the Cys285 residue leading to prolonged transactivation. This activation feature reflects pharmacological benefits of covalent drugs, suggesting that these hybrid compounds may serve as potential leads for a new-class of covalent PPARγ ligands. |
| topic |
PPARγ covalent agonist ligand-linkage structure-activity relationship |
| url |
https://www.mdpi.com/1420-3049/24/10/2019 |
| work_keys_str_mv |
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