Structural Basis for Anti-non-alcoholic Fatty Liver Disease and Diabetic Dyslipidemia Drug Saroglitazar as a PPAR α/γ Dual Agonist

Peroxisome proliferator-activated receptors (PPARs) are nuclear receptor-type transcription factors that consist of three subtypes (α, γ, and β/δ) with distinct functions and PPAR dual/pan agonists are expected to be the next generation of drugs for metabolic diseases. Saroglitazar is the first clin...

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Veröffentlicht in:Biological & pharmaceutical bulletin 2021/09/01, Vol.44(9), pp.1210-1219
Hauptverfasser: Honda, Akihiro, Kamata, Shotaro, Satta, Chihiro, Machida, Yui, Uchii, Kie, Terasawa, Kazuki, Nemoto, Ayane, Oyama, Takuji, Ishii, Isao
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container_issue 9
container_start_page 1210
container_title Biological & pharmaceutical bulletin
container_volume 44
creator Honda, Akihiro
Kamata, Shotaro
Satta, Chihiro
Machida, Yui
Uchii, Kie
Terasawa, Kazuki
Nemoto, Ayane
Oyama, Takuji
Ishii, Isao
description Peroxisome proliferator-activated receptors (PPARs) are nuclear receptor-type transcription factors that consist of three subtypes (α, γ, and β/δ) with distinct functions and PPAR dual/pan agonists are expected to be the next generation of drugs for metabolic diseases. Saroglitazar is the first clinically approved PPARα/γ dual agonist for treatment of diabetic dyslipidemia and is currently in clinical trials to treat non-alcoholic fatty liver disease (NAFLD); however, the structural information of its interaction with PPARα/γ remains unknown. We recently revealed the high-resolution co-crystal structure of saroglitazar and the PPARα–ligand binding domain (LBD) through X-ray crystallography, and in this study, we report the structure of saroglitazar and the PPARγ-LBD. Saroglitazar was located at the center of “Y”-shaped PPARγ-ligand-binding pocket (LBP), just as it was in the respective region of PPARα-LBP. Its carboxylic acid was attached to four amino acids (Ser289/His323/His449/Thr473), which contributes to the stabilization of Activating Function-2 helix 12, and its phenylpyrrole moiety was rotated 121.8 degrees in PPARγ-LBD from that in PPARα-LBD to interact with Phe264. PPARδ-LBD has the consensus four amino acids (Thr253/His287/His413/Tyr437) towards the carboxylic acids of its ligands, but it seems to lack sufficient space to accept saroglitazar because of the steric hindrance between the Trp228 or Arg248 residue of PPARδ-LBD and its methylthiophenyl moiety. Accordingly, in a coactivator recruitment assay, saroglitazar activated PPARα-LBD and PPARγ-LBD but not PPARδ-LBD, whereas glycine substitution of either Trp228, Arg248, or both of PPARδ-LBD conferred saroglitazar concentration-dependent activation. Our findings may be valuable in the molecular design of PPARα/γ dual or PPARα/γ/δ pan agonists.
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Saroglitazar is the first clinically approved PPARα/γ dual agonist for treatment of diabetic dyslipidemia and is currently in clinical trials to treat non-alcoholic fatty liver disease (NAFLD); however, the structural information of its interaction with PPARα/γ remains unknown. We recently revealed the high-resolution co-crystal structure of saroglitazar and the PPARα–ligand binding domain (LBD) through X-ray crystallography, and in this study, we report the structure of saroglitazar and the PPARγ-LBD. Saroglitazar was located at the center of “Y”-shaped PPARγ-ligand-binding pocket (LBP), just as it was in the respective region of PPARα-LBP. Its carboxylic acid was attached to four amino acids (Ser289/His323/His449/Thr473), which contributes to the stabilization of Activating Function-2 helix 12, and its phenylpyrrole moiety was rotated 121.8 degrees in PPARγ-LBD from that in PPARα-LBD to interact with Phe264. PPARδ-LBD has the consensus four amino acids (Thr253/His287/His413/Tyr437) towards the carboxylic acids of its ligands, but it seems to lack sufficient space to accept saroglitazar because of the steric hindrance between the Trp228 or Arg248 residue of PPARδ-LBD and its methylthiophenyl moiety. Accordingly, in a coactivator recruitment assay, saroglitazar activated PPARα-LBD and PPARγ-LBD but not PPARδ-LBD, whereas glycine substitution of either Trp228, Arg248, or both of PPARδ-LBD conferred saroglitazar concentration-dependent activation. 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source J-STAGE Free; MEDLINE; EZB-FREE-00999 freely available EZB journals; Free Full-Text Journals in Chemistry
subjects Agonists
Amino acids
Binding Sites
Carboxylic acids
Clinical trials
Crystal structure
Crystallography
Crystallography, X-Ray
Diabetes
Diabetes mellitus
Diabetes Mellitus, Type 2 - complications
Diabetes Mellitus, Type 2 - drug therapy
dual agonist
Dyslipidemia
Dyslipidemias - drug therapy
Dyslipidemias - etiology
Fatty liver
Humans
Hypolipidemic Agents - chemistry
Hypolipidemic Agents - pharmacology
Hypolipidemic Agents - therapeutic use
Ligands
Lipid Metabolism
Liver diseases
Metabolic disorders
non-alcoholic fatty liver disease
Non-alcoholic Fatty Liver Disease - drug therapy
peroxisome proliferator-activated receptor
Peroxisome proliferator-activated receptors
Phenylpropionates - chemistry
Phenylpropionates - pharmacology
Phenylpropionates - therapeutic use
PPAR alpha - agonists
PPAR alpha - isolation & purification
PPAR alpha - metabolism
PPAR alpha - ultrastructure
PPAR gamma - agonists
PPAR gamma - isolation & purification
PPAR gamma - metabolism
PPAR gamma - ultrastructure
Protein Domains
Pyrroles - chemistry
Pyrroles - pharmacology
Pyrroles - therapeutic use
Recombinant Proteins - isolation & purification
Recombinant Proteins - metabolism
Recombinant Proteins - ultrastructure
saroglitazar
steric hindrance
Transcription factors
X-ray crystallography
title Structural Basis for Anti-non-alcoholic Fatty Liver Disease and Diabetic Dyslipidemia Drug Saroglitazar as a PPAR α/γ Dual Agonist
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