Atsushi Aoyama scite author profile

To obtain novel transrepression-selective liver X receptor (LXR) ligands, we adopted a strategy of reducing the transactivational agonistic activity of the 5,11-dihydro-5-methyl-11-methylene-6H-dibenz[b,e]azepin-6-one derivative 10, which exhibits LXR-mediated transrepressional and transactivational activity. Structural modification of 10 based on the reported X-ray crystal structure of the LXR ligand-binding domain led to a series of compounds, of which almost all exhibited transrepressional activity at 1 or 10 μM but showed no transactivational activity even at 30 μM. Among the compounds obtained, 18 and 22 were confirmed to have LXR-dependent transrepressional activity by using peritoneal macrophages from wild-type and LXR-null mice. A newly developed fluorescence polarization assay indicated that they bind directly to LXRα. Next, further structural modification was performed with the guidance of docking simulations with LXRα, focusing on enhancing the binding of the ligands with LXRα through the introduction of substituents or heteroatom(s). Among the compounds synthesized, compound 48, bearing a hydroxyl group, showed potent, selective, and dose-dependent transrepressional activity.

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Styrylphenylphthalimides as Novel Transrepression-Selective Liver X Receptor (LXR) Modulators

Nomura

Endo-Umeda

Aoyama

et al. 2015

ACS Med. Chem. Lett.

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Anti-inflammatory effects of liver X receptor (LXR) ligands are thought to be largely due to LXR-mediated transrepression, whereas side effects are caused by activation of LXR-responsive gene expression (transactivation). Therefore, selective LXR modulators that preferentially exhibit transrepression activity should exhibit anti-inflammatory properties with fewer side effects. Here, we synthesized a series of styrylphenylphthalimide analogues and evaluated their structure-activity relationships focusing on LXRs-transactivating-agonistic/antagonistic activities and transrepressional activity. Among the compounds examined, 17l showed potent LXR-transrepressional activity with high selectivity over transactivating activity and did not show characteristic side effects of LXR-transactivating agonists in cells. This representative compound, 17l, was confirmed to have LXR-dependent transrepressional activity and to bind directly to LXRβ. Compound 17l should be useful not only as a chemical tool for studying the biological functions of LXRs transrepression but also as a candidate for a safer agent to treat inflammatory diseases.

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Liver X receptor antagonists with a phthalimide skeleton derived from thalidomide-related glucosidase inhibitors

Noguchi‐Yachide

Aoyama

Makishima

et al. 2007

Bioorganic & Medicinal Chemistry Letters

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Co-existence of α-glucosidase-inhibitory and liver X receptor-regulatory activities and their separation by structural development

Dodo

Aoyama

Noguchi‐Yachide

et al. 2008

Bioorganic & Medicinal Chemistry

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Atsushi Aoyama

Design, synthesis, and evaluation of potent, structurally novel peroxisome proliferator-activated receptor (PPAR) δ-selective agonists

Design, Synthesis, and Biological Evaluation of Novel Transrepression-Selective Liver X Receptor (LXR) Ligands with 5,11-Dihydro-5-methyl-11-methylene-6H-dibenz[b,e]azepin-6-one Skeleton

Styrylphenylphthalimides as Novel Transrepression-Selective Liver X Receptor (LXR) Modulators

Liver X receptor antagonists with a phthalimide skeleton derived from thalidomide-related glucosidase inhibitors

Co-existence of α-glucosidase-inhibitory and liver X receptor-regulatory activities and their separation by structural development

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