Your search keyword '"ERRγ"' showing total 128 results

1. A computational assay for identifying millet-derived compounds that antagonize the interaction between bisphenols and estrogen-related receptor gamma

Author

Rajesh Kumar Pathak and Jun-Mo Kim

Subjects

BPA, ERRγ, millets, virtual screening, admet, molecular dynamics simulation, Therapeutics. Pharmacology, RM1-950

Abstract

The use of Bisphenol A (BPA) and its analogs in industries, as well as the products made from them, is becoming a significant concern for human health. Scientific studies have revealed that BPA functions as an endocrine disruptor. While some analogs of BPA (bisphenols) have been used for a longer time, it was later discovered that they are toxic, similar to BPA. Their widespread use ensures their presence in the environment, and thus, everyone is exposed to them. Scientific research has shown that BPA interacts with estrogen-related receptor gamma (ERRγ), affecting its normal function. ERRγ is involved in biological processes including energy metabolism and mitochondrial function. Therefore, continuous exposure to bisphenols increases the risk of various diseases. In our previous study, we observed that some analogs of BPA had a higher binding affinity to ERRγ compared to BPA itself and analyzed the amino acid residues involved in this interaction. We hypothesized that by antagonizing the interaction between bisphenols and ERRγ, we could neutralize their toxic effects. Taking into account the health benefits of millets and their toxin removal properties, virtual screening of millet-derived compounds was conducted along with prediction of their ADMET profiles. Top five candidates were prioritized for Density Functional Theory (DFT) calculations and further analyses. Long-term molecular dynamics simulation (1 µs) were utilized to evaluate their binding, stability, and antagonizing abilities. Furthermore, reevaluation of their binding energy was conducted using the MM-PBSA method. This study reports millet-derived compounds, namely, Tricin 7-rutinoside, Tricin 7-glucoside, Glucotricin, Kaempferol, and Setarin. These compounds are predicted to be potent competitive inhibitors that can antagonize the interactions between bisphenols and ERRγ. These compounds could potentially assist in the development of future therapeutics. They may also be considered for use as food supplements, although further investigations, including wet-lab experiments and clinical studies, are needed.

Published

2024

2. Estrogen-Related Receptor γ Maintains Pancreatic Acinar Cell Function and Identity by Regulating Cellular Metabolism

Author

Choi, Jinhyuk, Oh, Tae Gyu, Jung, Hee-Won, Park, Kun-Young, Shin, Hyemi, Jo, Taehee, Kang, Du-Seock, Chanda, Dipanjan, Hong, Sujung, Kim, Jina, Hwang, Hayoung, Ji, Moongi, Jung, Minkyo, Shoji, Takashi, Matsushima, Ayami, Kim, Pilhan, Mun, Ji Young, Paik, Man-Jeong, Cho, Sung Jin, Lee, In-Kyu, Whitcomb, David C, Greer, Phil, Blobner, Brandon, Goodarzi, Mark O, Pandol, Stephen J, Rotter, Jerome I, Consortium, North American Pancreatitis Study 2, Fan, Weiwei, Bapat, Sagar P, Zheng, Ye, Liddle, Chris, Yu, Ruth T, Atkins, Annette R, Downes, Michael, Yoshihara, Eiji, Evans, Ronald M, and Suh, Jae Myoung

Subjects

Digestive Diseases, Cancer, Genetics, 2.1 Biological and endogenous factors, Aetiology, Oral and gastrointestinal, Acinar Cells, Animals, Estrogens, Humans, Mice, Mice, Knockout, Pancreas, Pancreas, Exocrine, Pancreatitis, Chronic, ERR gamma, Pancreatic Acinar Cells, Mitochondrial Oxidative Phosphorylation, Reactive Oxygen Species, Acinar-to-Ductal Metaplasia, North American Pancreatitis Study 2 (NAPS2) Consortium, ERRγ, Clinical Sciences, Neurosciences, Paediatrics and Reproductive Medicine, Gastroenterology & Hepatology

Abstract

Background & aimsMitochondrial dysfunction disrupts the synthesis and secretion of digestive enzymes in pancreatic acinar cells and plays a primary role in the etiology of exocrine pancreas disorders. However, the transcriptional mechanisms that regulate mitochondrial function to support acinar cell physiology are poorly understood. Here, we aim to elucidate the function of estrogen-related receptor γ (ERRγ) in pancreatic acinar cell mitochondrial homeostasis and energy production.MethodsTwo models of ERRγ inhibition, GSK5182-treated wild-type mice and ERRγ conditional knock-out (cKO) mice, were established to investigate ERRγ function in the exocrine pancreas. To identify the functional role of ERRγ in pancreatic acinar cells, we performed histologic and transcriptome analysis with the pancreas isolated from ERRγ cKO mice. To determine the relevance of these findings for human disease, we analyzed transcriptome data from multiple independent human cohorts and conducted genetic association studies for ESRRG variants in 2 distinct human pancreatitis cohorts.ResultsBlocking ERRγ function in mice by genetic deletion or inverse agonist treatment results in striking pancreatitis-like phenotypes accompanied by inflammation, fibrosis, and cell death. Mechanistically, loss of ERRγ in primary acini abrogates messenger RNA expression and protein levels of mitochondrial oxidative phosphorylation complex genes, resulting in defective acinar cell energetics. Mitochondrial dysfunction due to ERRγ deletion further triggers autophagy dysfunction, endoplasmic reticulum stress, and production of reactive oxygen species, ultimately leading to cell death. Interestingly, ERRγ-deficient acinar cells that escape cell death acquire ductal cell characteristics, indicating a role for ERRγ in acinar-to-ductal metaplasia. Consistent with our findings in ERRγ cKO mice, ERRγ expression was significantly reduced in patients with chronic pancreatitis compared with normal subjects. Furthermore, candidate locus region genetic association studies revealed multiple single nucleotide variants for ERRγ that are associated with chronic pancreatitis.ConclusionsCollectively, our findings highlight an essential role for ERRγ in maintaining the transcriptional program that supports acinar cell mitochondrial function and organellar homeostasis and provide a novel molecular link between ERRγ and exocrine pancreas disorders.

Published

2022

3. ERRγ-inducible FGF23 promotes alcoholic liver injury through enhancing CYP2E1 mediated hepatic oxidative stress

Author

Yoon Seok Jung, Kamalakannan Radhakrishnan, Seddik Hammad, Sebastian Müller, Johannes Müller, Jung-Ran Noh, Jina kim, In-Kyu Lee, Sung Jin Cho, Don-Kyu Kim, Yong-Hoon Kim, Chul-Ho Lee, Steven Dooley, and Hueng-Sik Choi

Subjects

ERRγ, Alcoholic liver disease, FGF23, CYP2E1, Oxidative stress, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Fibroblast growth factor 23 (FGF23) is a member of endocrine FGF family, along with FGF15/19 and FGF21. Recent reports showed that under pathological conditions, liver produces FGF23, although the role of hepatic FGF23 remains nebulous. Here, we investigated the role of hepatic FGF23 in alcoholic liver disease (ALD) and delineated the underlying molecular mechanism. FGF23 expression was compared in livers from alcoholic hepatitis patients and healthy controls. The role of FGF23 was examined in hepatocyte-specific knock-out (LKO) mice of cannabinoid receptor type 1 (CB1R), estrogen related receptor γ (ERRγ), or FGF23. Animals were fed with an alcohol-containing liquid diet alone or in combination with ERRγ inverse agonist. FGF23 is mainly expressed in hepatocytes in the human liver, and it is upregulated in ALD patients. In mice, chronic alcohol feeding leads to liver damage and induced FGF23 in liver, but not in other organs. FGF23 is transcriptionally regulated by ERRγ in response to alcohol-mediated activation of the CB1R. Alcohol induced upregulation of hepatic FGF23 and plasma FGF23 levels is lost in ERRγ-LKO mice, and an inverse agonist mediated inhibition of ERRγ transactivation significantly improved alcoholic liver damage. Moreover, hepatic CYP2E1 induction in response to alcohol is FGF23 dependent. In line, FGF23-LKO mice display decreased hepatic CYP2E1 expression and improved ALD through reduced hepatocyte apoptosis and oxidative stress. We recognized CBIR-ERRγ-FGF23 axis in facilitating ALD pathology through hepatic CYP2E1 induction. Thus, we propose FGF23 as a potential therapeutic target to treat ALD.

Published

2024

4. Upregulation of the ERRγ–VDAC1 axis underlies the molecular pathogenesis of pancreatitis.

Author

Chanda, Dipanjan, Thoudam, Themis, Singh Sinam, Ibotombi, Chae Won Lim, Myeongjin Kim, Jiale Wang, Kyeong-Min Lee, Jing Ma, Saxena, Romil, Jinhyuk Choi, Chang Joo Oh, Hoyul Lee, Yong Hyun Jeon, Sung Jin Cho, Hoe-Yune Jung, Keun-Gyu Park, Hueng-Sik Choi, Jae Myoung Suh, Auwerx, Johan, and Baoan Ji

Subjects

*PANCREATIC acinar cells, *PANCREATITIS, *GENE expression, *PATHOGENESIS, *TRANSCRIPTION factors, *NATURAL products

Abstract

Emerging evidence suggest that transcription factors play multiple roles in the development of pancreatitis, a necroinflammatory condition lacking specific therapy. Estrogen-related receptor γ (ERRγ), a pleiotropic transcription factor, has been reported to play a vital role in pancreatic acinar cell (PAC) homeostasis. However, the role of ERRγ in PAC dysfunction remains hitherto unknown. Here, we demonstrated in both mice models and human cohorts that pancreatitis is associated with an increase in ERRγ gene expression via activation of STAT3. Acinar-specific ERRγ haploinsufficiency or pharmacological inhibition of ERRγ significantly impaired the progression of pancreatitis both in vitro and in vivo. Using systematic transcriptomic analysis, we identified that voltage-dependent anion channel 1 (VDAC1) acts as a molecular mediator of ERRγ. Mechanistically, we showed that induction of ERRγ in cultured acinar cells and mouse pancreata enhanced VDAC1 expression by directly binding to specific site of the Vdac1 gene promoter and resulted in VDAC1 oligomerization. Notably, VDAC1, whose expression and oligomerization were dependent on ERRγ, modulates mitochondrial Ca2+ and ROS levels. Inhibition of the ERRγ–VDAC1 axis could alleviate mitochondrial Ca2+ accumulation, ROS formation and inhibit progression of pancreatitis. Using two different mouse models of pancreatitis, we showed that pharmacological blockade of ERRγ–VDAC1 pathway has therapeutic benefits in mitigating progression of pancreatitis. Likewise, using PRSS1R122H-Tg mice to mimic human hereditary pancreatitis, we demonstrated that ERRγ inhibitor also alleviated pancreatitis. Our findings highlight the importance of ERRγ in pancreatitis progression and suggests its therapeutic intervention for prevention and treatment of pancreatitis. [ABSTRACT FROM AUTHOR]

Published

2023

5. An Inverse Agonist GSK5182 Increases Protein Stability of the Orphan Nuclear Receptor ERRγ via Inhibition of Ubiquitination.

Author

Na, Soon-Young, Kim, Ki-Sun, Jung, Yoon Seok, Kim, Don-Kyu, Kim, Jina, Cho, Sung Jin, Lee, In-Kyu, Chung, Jongkyeong, Kim, Jeong-Sun, and Choi, Hueng-Sik

Subjects

*UBIQUITINATION, *UBIQUITIN ligases, *PROTEIN stability, *PARKIN (Protein), *LEUCINE zippers, *ORPHANS, *GENETIC transcription regulation

Abstract

The orphan nuclear receptor, estrogen-related receptor γ (ERRγ) is a constitutively active transcription factor involved in mitochondrial metabolism and energy homeostasis. GSK5182, a specific inverse agonist of ERRγ that inhibits transcriptional activity, induces a conformational change in ERRγ, resulting in a loss of coactivator binding. However, the molecular mechanism underlying the stabilization of the ERRγ protein by its inverse agonist remains largely unknown. In this study, we found that GSK5182 inhibited ubiquitination of ERRγ, thereby stabilizing the ERRγ protein, using cell-based assays and confocal image analysis. Y326 of ERRγ was essential for stabilization by GSK5182, as ligand-induced stabilization of ERRγ was not observed with the ERRγ-Y326A mutant. GSK5182 suppressed ubiquitination of ERRγ by the E3 ligase Parkin and subsequent degradation. The inhibitory activity of GSK5182 was strong even when the ERRγ protein level was elevated, as ERRγ bound to GSK5182 recruited a corepressor, small heterodimer partner-interacting leucine zipper (SMILE), through the activation function 2 (AF-2) domain, without alteration of the nuclear localization or DNA-binding ability of ERRγ. In addition, the AF-2 domain of ERRγ was critical for the regulation of protein stability. Mutants in the AF-2 domain were present at higher levels than the wild type in the absence of GSK5182. Furthermore, the ERRγ-L449A/L451A mutant was no longer susceptible to GSK5182. Thus, the AF-2 domain of ERRγ is responsible for the regulation of transcriptional activity and protein stability by GSK5182. These findings suggest that GSK5182 regulates ERRγ by a unique molecular mechanism, increasing the inactive form of ERRγ via inhibition of ubiquitination. [ABSTRACT FROM AUTHOR]

Published

2023

6. ERRγ Ligand Regulates Adult Neurogenesis and Depression-like Behavior in a LRRK2-G2019S-associated Young Female Mouse Model of Parkinson's Disease.

Author

Kim, Hyo In, Lim, Juhee, Choi, Hyo-Jung, Kim, Seok-Ho, and Choi, Hyun Jin

Abstract

Adult neurogenesis, a process controlling the proliferation to maturation of newly generated neurons in the post-developmental brain, is associated with various brain functions and pathogenesis of neuropsychological diseases, such as Parkinson's disease (PD) and depression. Because orphan nuclear receptor estrogen-related receptor γ (ERRγ) plays a role in the differentiation of neuronal cells, we investigated whether an ERRγ ligand enhances adult neurogenesis and regulates depressive behavior in a LRRK2-G2019S-associated mouse model of PD. Young female LRRK2-G2019S mice (7–9 weeks old) showed depression-like behavior without dopaminergic neuronal loss in the nigrostriatal pathway nor motor dysfunction. A significant decrease in adult hippocampal neurogenesis was detected in young female LRRK2-G2019S mice, but not in comparable male mice. A synthetic ERRγ ligand, (E)-4-hydroxy-N'-(4-(phenylethynyl)benzylidene)benzohydrazide (HPB2), ameliorated depression-like behavior in young female LRRK2-G2019S mice and enhanced neurogenesis in the hippocampus, as evidenced by increases in the number of bromodeoxyuridine/neuronal nuclei-positive cells and in the intensity and number of doublecortin-positive cells in the hippocampal dentate gyrus (DG). Moreover, HPB2 significantly increased the number of spines and the number and length of dendrites in the DG of young female LRRK2-G2019S mice. Furthermore, HPB2 upregulated brain-derived neurotrophic factor (BDNF)/tropomyosin receptor kinase B (TrkB) signaling, one of the important factors regulating neurogenesis, as well as phosphorylated cAMP-response element binding protein-positive cells in the DG of young female LRRK2-G2019S mice. Together, these results suggest ERRγ as a novel therapeutic target for PD-associated depression by modulating adult neurogenesis and BDNF/TrkB signaling. [ABSTRACT FROM AUTHOR]

Published

2022

7. DY131 activates ERRγ/TFAM axis to protect against metabolic disorders and acute kidney injury.

Author

Gong W, Lu L, Ma H, Shan M, Fan X, Bai M, Zhang Y, Huang S, Jia Z, and Zhang A

Subjects

Animals, Humans, Male, Mice, Mitochondria metabolism, Mice, Inbred C57BL, Metabolic Diseases metabolism, Apoptosis, Disease Models, Animal, Transcription Factors metabolism, Transcription Factors genetics, Cisplatin, DNA-Binding Proteins metabolism, DNA-Binding Proteins genetics, Acute Kidney Injury metabolism, Acute Kidney Injury genetics, Receptors, Estrogen metabolism

Abstract

Renal tubular injury is considered as the main pathological feature of acute kidney injury (AKI), and mitochondrial dysfunction in renal tubular cells is implicated in the pathogenesis of AKI. The estrogen-related receptor γ (ERRγ) is a member of orphan nuclear receptors which plays a regulatory role in mitochondrial biosynthesis, energy metabolism and many metabolic pathways. Online datasets showed a dominant expression of ERRγ in renal tubules, but the role of ERRγ in AKI is still unknown. In the present study, we investigated the role of ERRγ in the pathogenesis of AKI and the therapeutic efficacy of ERRγ agonist DY131 in several murine models of AKI. ERRγ expression was reduced in kidneys of AKI patients and AKI murine models along with a negative correlation to the severity of AKI. Consistently, silencing ERRγ in vitro enhanced cisplatin-induced tubular cells apoptosis, while ERRγ overexpression in vivo utilizing hydrodynamic-based tail vein plasmid delivery approach alleviated cisplatin-induced AKI. ERRγ agonist DY131 could enhance the transcriptional activity of ERRγ and ameliorate AKI in various murine models. Moreover, DY131 attenuated the mitochondrial dysfunction of renal tubular cells and metabolic disorders of kidneys in AKI, and promoted the expression of the mitochondrial transcriptional factor A (TFAM). Further investigation showed that TFAM could be a target gene of ERRγ and DY131 might ameliorate AKI by enhancing ERRγ-mediated TFAM expression protecting mitochondria. These findings highlighted the protective effect of DY131 on AKI, thus providing a promising therapeutic strategy for AKI., (© 2024 The Author(s). Published by Portland Press Limited on behalf of the Biochemical Society.)

Published

2024

8. An Inverse Agonist GSK5182 Increases Protein Stability of the Orphan Nuclear Receptor ERRγ via Inhibition of Ubiquitination

Author

Soon-Young Na, Ki-Sun Kim, Yoon Seok Jung, Don-Kyu Kim, Jina Kim, Sung Jin Cho, In-Kyu Lee, Jongkyeong Chung, Jeong-Sun Kim, and Hueng-Sik Choi

Subjects

nuclear receptor, ERRγ, inverse agonist, protein stability, Parkin, ubiquitination, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The orphan nuclear receptor, estrogen-related receptor γ (ERRγ) is a constitutively active transcription factor involved in mitochondrial metabolism and energy homeostasis. GSK5182, a specific inverse agonist of ERRγ that inhibits transcriptional activity, induces a conformational change in ERRγ, resulting in a loss of coactivator binding. However, the molecular mechanism underlying the stabilization of the ERRγ protein by its inverse agonist remains largely unknown. In this study, we found that GSK5182 inhibited ubiquitination of ERRγ, thereby stabilizing the ERRγ protein, using cell-based assays and confocal image analysis. Y326 of ERRγ was essential for stabilization by GSK5182, as ligand-induced stabilization of ERRγ was not observed with the ERRγ-Y326A mutant. GSK5182 suppressed ubiquitination of ERRγ by the E3 ligase Parkin and subsequent degradation. The inhibitory activity of GSK5182 was strong even when the ERRγ protein level was elevated, as ERRγ bound to GSK5182 recruited a corepressor, small heterodimer partner-interacting leucine zipper (SMILE), through the activation function 2 (AF-2) domain, without alteration of the nuclear localization or DNA-binding ability of ERRγ. In addition, the AF-2 domain of ERRγ was critical for the regulation of protein stability. Mutants in the AF-2 domain were present at higher levels than the wild type in the absence of GSK5182. Furthermore, the ERRγ-L449A/L451A mutant was no longer susceptible to GSK5182. Thus, the AF-2 domain of ERRγ is responsible for the regulation of transcriptional activity and protein stability by GSK5182. These findings suggest that GSK5182 regulates ERRγ by a unique molecular mechanism, increasing the inactive form of ERRγ via inhibition of ubiquitination.

Published

2022

9. Orphan nuclear receptor ERRγ regulates hepatic TGF-β2 expression and fibrogenic response in CCl4-induced acute liver injury.

Author

Jung, Yoon Seok, Kim, Yong-Hoon, Radhakrishnan, Kamalakannan, Kim, Jina, Lee, In-Kyu, Cho, Sung Jin, Kim, Don-Kyu, Dooley, Steven, Lee, Chul-Ho, and Choi, Hueng-Sik

Subjects

*NUCLEAR receptors (Biochemistry), *LIVER injuries, *LABORATORY mice, *KNOCKOUT mice, *GENE expression, *INTERLEUKIN-6, *ORPHANS

Abstract

Acute liver injury results from the complex interactions of various pathological processes. The TGF-β superfamily plays a crucial role in orchestrating fibrogenic response. In contrast to TGF-β1, a role of TGF-β2 in hepatic fibrogenic response has not been fully investigated. In this study, we showed that TGF-β2 gene expression and secretion are induced in the liver of CCl4 (1 ml/kg)-treated WT mice. Studies with hepatocyte specific ERRγ knockout mice or treatment with an ERRγ-specific inverse agonist, GSK5182 (40 mg/kg), indicated that CCl4-induced hepatic TGF-β2 production is ERRγ dependent. Moreover, IL6 was found as upstream signal to induce hepatic ERRγ and TGF-β2 gene expression in CCl4-mediated acute toxicity model. Over-expression of ERRγ was sufficient to induce hepatic TGF-β2 expression, whereas ERRγ depletion markedly reduces IL6-induced TGF-β2 gene expression and secretion in vitro and in vivo. Promoter assays showed that ERRγ directly binds to an ERR response element in the TGF-β2 promoter to induce TGF-β2 transcription. Finally, GSK5182 diminished CCl4-induced fibrogenic response through inhibition of ERRγ-mediated TGF-β2 production. Taken together, these results firstly demonstrate that ERRγ can regulate the TGF-β2-mediated fibrogenic response in a mouse model of CC14-induced acute liver injury. [ABSTRACT FROM AUTHOR]

Published

2021

10. Macrophage stimulating protein is a novel transcriptional target of estrogen related receptor gamma in alcohol-intoxicated mice.

Author

Jung, Yoon Seok, Radhakrishnan, Kamalakannan, Kim, Hyo-Jin, Kim, Yong-Hoon, Lee, Chul-Ho, and Choi, Hueng-Sik

Subjects

*ESTROGEN receptors, *GENETIC regulation, *CANNABINOID receptors, *GENE expression, *PROTEIN-tyrosine kinases, *BLOOD proteins, *LIVER cells

Abstract

Macrophage stimulating protein (MSP) is a multifunctional serum protein produced in the liver, belonging to the plasminogen-related kringle protein family. It exerts diverse biological functions by activating a transmembrane receptor protein-tyrosine kinase known as RON in humans and SKT in mice. MSP plays a pivotal role in innate immunity and is involved in various activities such as cell survival, migration, and phagocytosis. Elucidating the regulatory mechanisms governing MSP gene expression is of great importance. In this study, we comprehensively elucidate the molecular mechanism underlying hepatic MSP gene expression in response to alcoholism. Exposure to ethanol specifically upregulated the expression of ERRγ and MSP in the liver, while not in other organs. Liver-specific knockout of the cannabinoid receptor type 1 (CB1R), an upstream regulator of ERRγ, inhibited the alcohol-induced upregulation of MSP expression. Overexpression of ERRγ alone was sufficient to enhance MSP expression in hepatic cell lines and in mice. Conversely, knockdown of ERRγ in cell lines or liver-specific knockout of ERRγ in mice reversed ethanol-induced MSP gene expression. Promoter studies revealed the direct binding of ERRγ to the MSP gene promoter at the ERR response element (ERRE), resulting in the positive regulation of MSP gene expression in response to alcohol. This finding was further supported by ERRE-mutated MSP-luciferase reporter assays. Notably, treatment with GSK5182, an ERRγ-specific inverse agonist, significantly suppressed alcohol-induced hepatic MSP expression. Collectively, we exposed a novel mechanistic understanding of how alcohol-induced ERRγ controls the transcriptional regulation of MSP gene expression in the liver. • ERRγ is a novel transcriptional regulator of MSP. • ERRγ binds to the MSP gene promoter, thereby enhancing its transcription. • The loss of ERRγ or inhibition of ERRγ transactivation prevents alcohol-induced MSP gene expression. [ABSTRACT FROM AUTHOR]

Published

2024

11. Structural insight into the mechanisms and interacting features of endocrine disruptor Bisphenol A and its analogs with human estrogen-related receptor gamma.

Author

Pathak, Rajesh Kumar and Kim, Jun-Mo

Subjects

ENDOCRINE disruptors, BISPHENOL A, AMINO acid residues, ESTROGEN receptors, MOLECULAR dynamics, STRUCTURE-activity relationships

Abstract

Bisphenol A (BPA) is a very important chemical from the commercial perspective. Many useful products are made from it, so its production is increasing day by day. It is widely known that Bisphenol A (BPA) and its analogs are present in the environment and that they enter our body through various routes on a daily basis as we use things made of this chemical in our daily lives. BPA has already been reported to be an endocrine disruptor. Studies have shown that BPA binds strongly to the human estrogen-related receptor gamma (ERRγ) and is an important target of it. This study seeks to understand how it interacts with ERRγ. Molecular docking of BPA and its analogs with ERRγ was performed, and estradiol was taken as a reference. Then, physico-chemical and toxicological analysis of BPA compounds was performed. Subsequently, the dynamic behavior of ERRγ and ERRγ-BPA compound complexes was studied by molecular dynamics simulations over 500 ns, and using this simulated data, their binding energies were again calculated using the MM-PBSA method. We observed that the binding affinity of BPA and its analogs was much higher than that of estradiol, and apart from being toxic, they can be easily absorbed in our body as their physicochemical properties are similar to those of oral medicines. Therefore, this study facilitates the understanding of the structure–activity relationship of ERRγ and BPA compounds and provides information about the key amino acid residues of ERRγ that interact with BPA compounds, which can be helpful to design competitive inhibitors so that we can interrupt the interaction of BPA with ERRγ. In addition, it provides information on BPA and its analogs and will also be helpful in developing new therapeutics. [Display omitted] • The study comprehended interaction of BPA and its analogs with ERRγ. • The physicochemical and toxicity properties of BPA and its analogs were analyzed. • The key amino acid residues contributing to the interaction have been identified. • These amino acid residues will help in antagonizing BPA-ERRγ interactions. [ABSTRACT FROM AUTHOR]

Published

2024

12. Estrogen-Related Receptor γ Agonist DY131 Ameliorates Lipopolysaccharide-Induced Acute Liver Injury

Author

Haoyang Ma, Jiaye Liu, Yang Du, Shengnan Zhang, Weidong Cao, Zhanjun Jia, Wei Gong, and Aihua Zhang

Subjects

ERRγ, DY131, lipopolysaccharide, acute liver injury, sepsis, Therapeutics. Pharmacology, RM1-950

Abstract

Sepsis-associated liver dysfunction remains a challenge in clinical practice with high mortality and limited specific therapies. DY131 is a pharmacological agonist of the orphan receptor estrogen-related receptor (ERR) γ which plays a crucial role in regulating energy generation, oxidative metabolism, cell apoptosis, inflammatory responses, etc. However, its role in acute liver injury is unknown. In this study, we evaluated the effect of DY131 on lipopolysaccharide (LPS)-induced liver injury. Mice were pretreated with DY131 through intraperitoneal injection at a dose of 5 mg/kg/day for 3 days prior to LPS challenge (10 mg/kg). 24 h later, they were anesthetized and sacrificed. Blood and liver tissues were collected for further studies. In a separate experiment, mice were treated with saline (vehicle) or DY131 for 3 days to evaluate the toxicity of DY131. We found that ERRγ was downregulated in the liver tissues from LPS-treated mice. Pretreatment with DY131 ameliorated LPS-induced liver injury as demonstrated by reduced liver enzyme release (ALT, AST, and LDH), improved liver morphological damage, and attenuated oxidative stress, inflammation and apoptosis. Meanwhile, DY131 had no significant side effects on hepatic and renal functions in mice. Finally, transcriptomics analysis revealed that the dysregulated pathways associated with inflammation and metabolism were significantly reversed by DY131 in LPS-treated mice, providing more evidence in favor of the protective effect of DY131 against LPS-induced liver injury. Altogether, these findings highlighted the protective effect of DY131 on LPS-induced hepatotoxicity possibly via suppressing oxidative stress, inflammation, and apoptosis.

Published

2021

13. Inhibition of EZH2 and activation of ERRγ synergistically suppresses gastric cancer by inhibiting FOXM1 signaling pathway.

Author

Huang, Boyan, Mu, Peiqiang, Yu, Yan, Zhu, Wenya, Jiang, Tianqing, Deng, Rong, Feng, Gongkan, Wen, Jikai, Zhu, Xiaofeng, and Deng, Yiqun

Subjects

*STOMACH cancer, *CANCER-related mortality, *TUMOR growth, *CELL lines, *CELL proliferation

Abstract

Background: Gastric cancer (GC) is a leading cause of cancer-related mortality worldwide, because of the low efficacy of current therapeutic strategies. Estrogen-related receptor γ (ERRγ) was previously showed as a suppressor of GC. However, the mechanism and effective therapeutic method based on ERRγ is yet to be developed. Methods: The expression levels of ERRγ, EZH2, and FOXM1 were detected by immunohistochemistry, qRT-PCR, and western blot. The regulatory mechanisms of ERRγ and FOXM1 were analyzed by ChIP, EMSA, and siRNA. The effects of EZH2 inhibitor (GSK126) or/and ERRγ agonist (DY131) on the tumorigenesis of gastric cancer cell lines were examined by cell proliferation, transwell migration, wound healing, and colony formation assays. Meanwhile, the inhibitory effects of GSK126 or/and DY131 on tumor growth were analyzed by xenograft tumor growth assay. Results: The expression of ERRγ was suppressed in tumor tissues of GC patients and positively correlated with prognosis, as opposed to that of EZH2 and FOXM1. EZH2 transcriptionally suppressed ERRγ via H3K27me3, which subsequently activated the expression of master oncogene FOXM1. The combination of GSK126 and DY131 synergistically activated ERRγ expression, which subsequently inhibited the expression of FOXM1 and its regulated pathways. Synergistic combination of GSK126 and DY131 significantly inhibited the tumorigenesis of GC cell lines and suppressed the growth of GC xenograft. Conclusion: The FOXM1 signaling pathway underlying the ERRγ-mediated gastric cancer suppression was identified. Furthermore, combined treatment with EZH2 inhibitor and ERRγ agonist synergistically suppressed GC progression by inhibiting this signaling pathway, suggesting its high potential in treating GC patients. [ABSTRACT FROM AUTHOR]

Published

2021

14. ERRγ-inducible FGF23 promotes alcoholic liver injury through enhancing CYP2E1 mediated hepatic oxidative stress.

Author

Jung YS, Radhakrishnan K, Hammad S, Müller S, Müller J, Noh JR, Kim J, Lee IK, Cho SJ, Kim DK, Kim YH, Lee CH, Dooley S, and Choi HS

Subjects

Animals, Humans, Mice, Drug Inverse Agonism, Ethanol pharmacology, Hepatocytes metabolism, Liver metabolism, Oxidative Stress, Cytochrome P-450 CYP2E1 genetics, Cytochrome P-450 CYP2E1 metabolism, Liver Diseases, Alcoholic metabolism

Abstract

Fibroblast growth factor 23 (FGF23) is a member of endocrine FGF family, along with FGF15/19 and FGF21. Recent reports showed that under pathological conditions, liver produces FGF23, although the role of hepatic FGF23 remains nebulous. Here, we investigated the role of hepatic FGF23 in alcoholic liver disease (ALD) and delineated the underlying molecular mechanism. FGF23 expression was compared in livers from alcoholic hepatitis patients and healthy controls. The role of FGF23 was examined in hepatocyte-specific knock-out (LKO) mice of cannabinoid receptor type 1 (CB1R), estrogen related receptor γ (ERRγ), or FGF23. Animals were fed with an alcohol-containing liquid diet alone or in combination with ERRγ inverse agonist. FGF23 is mainly expressed in hepatocytes in the human liver, and it is upregulated in ALD patients. In mice, chronic alcohol feeding leads to liver damage and induced FGF23 in liver, but not in other organs. FGF23 is transcriptionally regulated by ERRγ in response to alcohol-mediated activation of the CB1R. Alcohol induced upregulation of hepatic FGF23 and plasma FGF23 levels is lost in ERRγ-LKO mice, and an inverse agonist mediated inhibition of ERRγ transactivation significantly improved alcoholic liver damage. Moreover, hepatic CYP2E1 induction in response to alcohol is FGF23 dependent. In line, FGF23-LKO mice display decreased hepatic CYP2E1 expression and improved ALD through reduced hepatocyte apoptosis and oxidative stress. We recognized CBIR-ERRγ-FGF23 axis in facilitating ALD pathology through hepatic CYP2E1 induction. Thus, we propose FGF23 as a potential therapeutic target to treat ALD., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

15. Novel metabolic system for lactic acid via LRPGC1/ERRγ signaling pathway.

Author

Tanida, Takashi, Matsuda, Ken Ichi, and Tanaka, Masaki

Abstract

Lactic acid (LA) is a byproduct of glycolysis resulting from intense exercise or a metabolic defect in aerobic processes. LA metabolism is essential to prevent lactic acidosis, but the mechanism through which LA regulates its own metabolism is largely unknown. Here, we identified a LA‐responsive protein, named LRPGC1, which has a distinct role from PGC1α, a key metabolic regulator, and report that LRPGC1 particularly mediates LA response to activate liver LA metabolism. Following LA stimulation, LRPGC1, but not PGC1α, translocates from the cytoplasm to the nucleus through deactivation of nuclear export signals, interacts with the nuclear receptor ERRγ, and upregulates TFAM, which ensures mitochondrial biogenesis. Knockout of PGC1 gene in HepG2 hepatocarcinoma cells decreased the LA consumption and TFAM expression, which were rescued by LRPGC1 expression, but not by PGC1α. These LRPGC1‐induced effects were mediated by ERRγ, concomitantly with mitochondrial activation. The response element for LRPGC1/ERRγ signaling pathway was identified in TFAM promoter. Notably, the survival rate of a mouse model of lactic acidosis was reduced by the liver‐targeted silencing of Lrpgc1, while it was significantly ameliorated by the pharmacological activation of ERRγ. These findings demonstrate LA‐responsive transactivation via LRPGC1 that highlight an intrinsic molecular mechanism for LA homeostasis. [ABSTRACT FROM AUTHOR]

Published

2020

16. An inverse agonist of estrogen-related receptor γ regulates 2-arachidonoylglycerol synthesis by modulating diacylglycerol lipase expression in alcohol-intoxicated mice.

Author

Jung, Yoon Seok, Kim, Yong-Hoon, Radhakrishnan, Kamalakannan, kim, Jina, Kim, Don-Kyu, Lee, Ji-Hyeok, Oh, Hyunhee, Lee, In-Kyu, Kim, Wook, Cho, Sung Jin, Choi, Cheol Soo, Dooley, Steven, Egan, Josephine M., Lee, Chul-Ho, and Choi, Hueng-Sik

Subjects

*ESTROGEN, *CANNABINOID receptors, *ALCOHOLIC liver diseases, *MICE, *KNOCKOUT mice, *GENE expression

Abstract

Chronic alcohol feeding increases the levels of 2-arachidonoylglycerol (2-AG) in the liver, which activates hepatic cannabinoid receptor type 1 (CB1R), leading to oxidative liver injury. 2-AG biosynthesis is catalyzed by diacylglycerol lipase (DAGL). However, the mechanisms regulating hepatic DAGL gene expression and 2-AG production are largely unknown. In this study, we show that CB1R-induced estrogen-related receptor γ (ERRγ) controls hepatic DAGL gene expression and 2-AG levels. Arachidonyl-2′-chloroethylamide (ACEA), a synthetic CB1R agonist, significantly upregulated ERRγ, DAGLα, and DAGLβ, and increased 2-AG levels in the liver (10 mg/kg) and hepatocytes (10 μM) of wild-type (WT) mice. ERRγ overexpression upregulated DAGLα and DAGLβ expressions and increased 2-AG levels, whereas ERRγ knockdown abolished ACEA-induced DAGLα, DAGLβ, and 2-AG in vitro and in vivo. Promoter assays showed that ERRγ positively regulated DAGLα and DAGLβ transcription by binding to the ERR response element in the DAGLα and DAGLβ promoters. Chronic alcohol feeding (27.5% of total calories) induced hepatic steatosis and upregulated ERRγ, leading to increased DAGLα, DAGLβ, or 2-AG in WT mice, whereas these alcohol-induced effects did not occur in hepatocyte-specific CB1R knockout mice or in those treated with the ERRγ inverse agonist GSK5182 (40 mg/kg in mice and 10 μM in vitro). Taken together, these results indicate that suppression of alcohol-induced DAGLα and DAGLβ gene expressions and 2-AG levels by an ERRγ-specific inverse agonist may be a novel and attractive therapeutic approach for the treatment of alcoholic liver disease. [ABSTRACT FROM AUTHOR]

Published

2020

17. Orphan nuclear receptor ERRγ regulates hepatic TGF-β2 expression and fibrogenic response in CCl4-induced acute liver injury

Author

Jung, Yoon Seok, Kim, Yong-Hoon, Radhakrishnan, Kamalakannan, Kim, Jina, Lee, In-Kyu, Cho, Sung Jin, Kim, Don-Kyu, Dooley, Steven, Lee, Chul-Ho, and Choi, Hueng-Sik

Published

2021

18. Potential role of microRNA-424 in regulating ERRγ to suppress trophoblast proliferation and invasion in fetal growth restriction.

Author

Zou, Zhiyong, He, Zhiming, Cai, Jian, Huang, Linhuan, Zhu, Hui, and Luo, Yanmin

Abstract

Background: Abnormal expression of estrogen-related receptor γ (ERRγ) protein is associated with fetal growth restriction (FGR). The upstream regulators of ERRγ are still unknown.Objective: To evaluate the placental expression level of microRNA-424 (miR-424) and to demonstrate the relationship between miR-424 and FGR.Methods: The expression levels of miR-424 were detected in FGR and control placentas. HTR-8/SVneo cells were transfected with mimics or inhibitors to increase or decrease the miR-424 expression level, respectively. The transwell and CCK-8 assays were used to determine trophoblast-derived cell line invasion and proliferation. The expression levels of miR-424, ERRγ, and 17 beta-hydroxysteroid dehydrogenase type 1 (HSD17B1) were detected by qRT-PCR and Western blotting. The relationship between miR-424, ERRγ, and HSD17B1 was determined by luciferase reporter assay.Results: Compared to the normal pregnancy group, FGR placental tissues showed a significantly higher expression level of miR-424. The up-regulation of miR-424 decreased trophoblast-derived cell line invasion and proliferation. Down-regulation of miR-424 enhanced invasive and proliferative abilities of the cell lines. Over-expression of miR-424 reduced ERRγ protein levels and decreased both mRNA and protein levels of HSD17B1. Thus down-regulation of miR-424 induced protein expression of ERRγ and enhanced the mRNA and protein expressions of HSD17B1. MiR-424 probably mediated the expression of ERRγ via binding to sites other than mRNA 3'UTR.Conclusion: MiR-424 may be associated with the pathogenesis of FGR by modulating trophoblast-derived cell line proliferation and invasion. MiR-424 may play a role in mediating the protein expressions of ERRγ and HSD17B1. [ABSTRACT FROM AUTHOR]

Published

2019

19. Novel insights of elevated systemic levels of bisphenol-A (BPA) linked to poor glycemic control, accelerated cellular senescence and insulin resistance in patients with type 2 diabetes.

Author

Soundararajan, Avinash, Prabu, Paramasivam, Mohan, Viswanathan, Gibert, Yann, and Balasubramanyam, Muthuswamy

Abstract

There is a striking interaction of genes and environment in the etiology of type 2 diabetes mellitus (T2DM). While endocrine disrupting chemicals (EDCs) like bisphenol-A (BPA) have received special attention for their mechanistic role in metabolic disruption, there is a lack of clinically relevant data on BPA levels in Asian Indians, a population which is more susceptible to type 2 diabetes mellitus (T2DM) and cardiovascular diseases. Therefore, we measured systemic levels of BPA in patients with T2DM compared to individuals with normal glucose tolerance (n = 30 each). Serum BPA levels were estimated using ELISA kit, and biochemical determinations were done by standard protocols. Peripheral blood mononuclear cells (PBMCs) were used to profile the gene expression alterations with special reference to inflammation, estrogen receptors, and cellular senescence in these subjects. Serum levels of BPA were significantly higher in patients with T2DM compared to control individuals and positively correlated to poor glycemic control and insulin resistance. Patients with T2DM exhibited significantly elevated mRNA levels of senescence (GLB1, p16, p21, and p53) and inflammatory (IL6 and TNF-α) markers, shortened telomeres as well as elevated levels of estrogen-related receptor gamma (ERRγ), a recently identified receptor for BPA. BPA levels were positively correlated to senescence indicators, inflammatory markers and ERRγ and negatively correlated to telomere length. Our study is the first data in the clinical diabetes setting to demonstrate an association of increased BPA levels with cellular senescence, proinflammation, poor glycemic control, insulin resistance, and shortened telomeres in patients with T2DM. [ABSTRACT FROM AUTHOR]

Published

2019

20. Estrogen-related receptor γ regulates hepatic triglyceride metabolism through phospholipase A2 G12B.

Author

Longhui Chen, Min Wu, Shengnan Zhang, Wenjuan Tan, Min Guan, Liqiang Feng, Chen Chen, Jun Tao, Ling Chen, and Linbing Qu

Abstract

Hypersecretion of hepatic very LDL (VLDL)-associated triglyceride (TG) is the hallmark of hypertriglyceridemia. The estrogen-related receptor γ (ERRγ), an orphan nuclear receptor, plays crucial roles in the regulation of metabolic homeostasis, including TG formation in the liver. It remains unclear whether ERRγ regulates hepatic VLDL-TG secretion. We demonstrated that knockdown of ERRγ impairs hepatic VLDL-TG secretion in mice, whereas overexpression of ERRγ favors the secretion, indicating a novel role of ERRγ in hepatic TG metabolism. We found that ERRγ transcriptionally regulates the expression of PLA2G12B by binding to the promoter region of the Pla2g12b gene. In Pla2g12b-null mice, ERRγ fails to regulate hepatic VLDL-TG secretion. There is an apparent accumulation of large lipid droplets in the liver of Pla2g12b-null mice. These data suggest that ERRγ is a novel regulator of hepatic VLDL-TG secretion, which is mediated through the action on PLA2G12B. [ABSTRACT FROM AUTHOR]

Published

2019

21. Estrogen‐related receptor γ negatively regulates osteoclastogenesis and protects against inflammatory bone loss.

Author

Kim, Hyun‐Ju, Kim, Bo Kyung, Ohk, Boram, Yoon, Hye‐Jin, Kang, Woo Youl, Cho, Seungil, Seong, Sook Jin, Lee, Hae Won, and Yoon, Young‐Ran

Subjects

*ESTROGEN receptors, *OSTEOCLASTOGENESIS, *INFLAMMATION, *NUCLEAR receptors (Biochemistry), *PATHOLOGICAL physiology, *CELL differentiation

Abstract

Estrogen‐related receptor γ (ERRγ) is an orphan nuclear receptor that plays an important role in various metabolic processes under physiological and pathophysiological conditions. Here, we report that ERRγ functions as a negative regulator in receptor activator of nuclear factor κΒ ligand (RANKL)–induced osteoclast differentiation. We observed that ERRγ was strongly expressed in osteoclast precursors, bone marrow–derived macrophages (BMMs) while its expression was significantly reduced by RANKL during osteoclastogenesis. Overexpression of ERRγ in BMMs suppressed the formation of multinucleated osteoclasts and attenuated the induction of c‐Fos and nuclear factor of activated T cells c1, which are critical modulators in osteoclastogenesis. Similarly, the treatment of ERRγ agonists, N‐(4‐(diethylaminobenzylidenyl)‐N'‐(4‐hydroxybenzoyl)‐hydrazine (DY131) or GSK4716, also inhibited osteoclast generation and the expression of these key modulators. On the other hand, shRNA‐mediated knockdown of ERRγ accelerated the formation of bone‐resorbing cells and the expression of osteoclastogenic markers. Forced expression of ERRγ blocked RANKL‐stimulated phosphorylation of the nuclear factor κB (NF‐κB) inhibitor IκBα and suppressed NF‐κB transcriptional activity induced by RANKL or the NF‐κB subunit p65. Furthermore, by employing a pharmacological approach, we showed that the ERRγ agonist DY131 protected against inflammatory bone loss induced by lipopolysaccharide in vivo. Together, our findings reveal that ERRγ is a pivotal regulator in RANKL‐mediated osteoclastogenesis and suggest that ERRγ may have potential as a therapeutic target for pathological bone loss. Our findings identify orphan nuclear receptor ERRγ as a novel negative regulator of osteoclastogenesis and further reveals its protective role on inflammatory bone loss in vivo. [ABSTRACT FROM AUTHOR]

Published

2019

22. The endocrine disruptor bisphenol A promotes nuclear ERRγ translocation, facilitating cell proliferation of Grade I endometrial cancer cells via EGF-dependent and EGF-independent pathways.

Author

Yaguchi, Takahiro

Abstract

Endocrine disruptors have become a global social and public health problem since the late 1980s. Bisphenol A (BPA) has a steroid-like skeleton similar to estrogen and progesterone, and is an endocrine disruptor that disturbs the physiological hormone balance. The potential involvement of BPA in malignancy of endometrial cancer cells caused by overexposure of steroid hormones remains incompletely understood. The present study aimed at understanding the regulatory mechanism underlying BPA-induced cell proliferation in hormone-sensitive endometrial cancer cells. BPA selectively and significantly induced cell proliferation of Grade I endometrial cancer cells such as HEC265 and Ishikawa cells. In HEC265 and Ishikawa cells, BPA induced nuclear translocation of estrogen-related receptor γ (ERRγ) in a time-dependent manner and increased expression of BPA/ERRγ-target genes. In Ishikawa cells, BPA promoted the influx of Ca2+ followed by epidermal growth factor (EGF) secretion to the extracellular space. Furthermore, EGF secreted from Ishikawa had an autocrine effect, leading to activation of the EGFR/ERK pathway. Contrastingly, in HEC265 cells, BPA increased the expression of BPA/ERRγ-target genes but did not affect Ca2+ mobilization EGF secretion. In conclusion, BPA induced cell proliferation via the BPA/ERRγ/EGF/EGFR/ERK signaling pathway in Ishikawa cells and contrastingly, in HEC265 cells, induced cell proliferation through the BPA/ERRγ signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2019

23. Chenodeoxycholic acid regulates fibroblast growth factor 23 gene expression via estrogen-related receptor γ in human hepatoma Huh7 cells.

Author

Fan, Yiwen, Kim, Hyo-Jin, Jung, Yoon Seok, Na, Soon-Young, Radhakrishnan, Kamalakannan, and Choi, Hueng-Sik

Subjects

*FIBROBLAST growth factors, *CHENODEOXYCHOLIC acid, *GENE expression, *NON-alcoholic fatty liver disease, *ESTROGEN, *HEPATOCELLULAR carcinoma

Abstract

• CDCA induces ERRγ and FGF23 gene expression in the human hepatoma cell line. • ERRγ transcriptionally regulates CDCA-induced FGF23 gene expression. • GSK5182, an ERRγ specific inverse agonist, inhibits FGF23 gene expression induced by CDCA. Fibroblast growth factor 23 (FGF23) is a glycoprotein that belongs to the FGF19 subfamily and participates in phosphate and vitamin D homeostasis. Chenodeoxycholic acid (CDCA), one of the primary bile acids, is reported to induce the secretion of FGF19 subfamily members, FGF21 and FGF19, in hepatocytes. However, whether and how CDCA influences FGF23 gene expression are largely unknown. Thus, we performed real-time polymerase chain reaction and Western blot analyses to determine the mRNA and protein expression levels of FGF23 in Huh7 cells. CDCA upregulated estrogen-related receptor γ (ERRγ) alongside FGF23 mRNA and protein levels, while, the knockdown of ERRγ ablated the induction effect of CDCA on FGF23 expression. Promoter studies showed that CDCA-induced FGF23 promoter activity occurred partly through ERRγ binding directly to the ERR response element (ERRE) in the human FGF23 gene promoter. Finally, the inverse agonist of ERRγ, GSK5182 inhibited the induction of FGF23 by CDCA. Overall, our results revealed the mechanism of CDCA-mediated FGF23 gene upregulation in the human hepatoma cell line. Moreover, the ability of GSK5182 to reduce CDCA-induced FGF23 gene expression might represent a therapeutic strategy to control abnormal FGF23 induction in conditions that involve elevated levels of bile acids, such as nonalcoholic fatty liver disease and biliary atresia. [ABSTRACT FROM AUTHOR]

Published

2023

24. GSK5182, 4-Hydroxytamoxifen Analog, a New Potential Therapeutic Drug for Osteoarthritis

Author

Yunhui Min, Dahye Kim, Godagama Gamaarachchige Dinesh Suminda, Xiangyu Zhao, Mangeun Kim, Yaping Zhao, and Young-Ok Son

Subjects

GSK5182, ERRγ, cartilage degeneration, osteoarthritis, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Estrogen-related receptors (ERRs) are the first identified orphan nuclear receptors. The ERR family consists of ERRα, ERRβ, and ERRγ, regulating diverse isoform-specific functions. We have reported the importance of ERRγ in osteoarthritis (OA) pathogenesis. However, therapeutic approaches with ERRγ against OA associated with inflammatory mechanisms remain limited. Herein, we examined the therapeutic potential of a small-molecule ERRγ inverse agonist, GSK5182 (4-hydroxytamoxifen analog), in OA, to assess the relationship between ERRγ expression and pro-inflammatory cytokines in mouse articular chondrocyte cultures. ERRγ expression increased following chondrocyte exposure to various pro-inflammatory cytokines, including interleukin (IL)-1β, IL-6, and tumor necrosis factor (TNF)-α. Pro-inflammatory cytokines dose-dependently increased ERRγ protein levels. In mouse articular chondrocytes, adenovirus-mediated ERRγ overexpression upregulated matrix metalloproteinase (MMP)-3 and MMP-13, which participate in cartilage destruction during OA. Adenovirus-mediated ERRγ overexpression in mouse knee joints or ERRγ transgenic mice resulted in OA. In mouse joint tissues, genetic ablation of Esrrg obscured experimental OA. These results indicate that ERRγ is involved in OA pathogenesis. In mouse articular chondrocytes, GSK5182 inhibited pro-inflammatory cytokine-induced catabolic factors. Consistent with the in vitro results, GSK5182 significantly reduced cartilage degeneration in ERRγ-overexpressing mice administered intra-articular Ad-Esrrg. Overall, the ERRγ inverse agonist GSK5182 represents a promising therapeutic small molecule for OA.

Published

2020

25. Inverse agonist of ERRγ reduces cannabinoid receptor type 1-mediated induction of fibrinogen synthesis in mice with a high-fat diet-intoxicated liver.

Author

Zhang, Yaochen, Kim, Don-Kyu, Jung, Yoon Seok, Kim, Yong-Hoon, Lee, Yong Soo, Kim, Jina, Jeong, Won-IL, Lee, In-Kyu, Cho, Sung Jin, Dooley, Steven, Lee, Chul-Ho, and Choi, Hueng-Sik

Subjects

*FIBRINOGEN, *THROMBOSIS, *MESSENGER RNA, *CANNABINOIDS, *PROTEIN expression

Abstract

Upon liver intoxication with malnutrition or high-fat diet feeding, fibrinogen is synthesized by hepatocytes and secreted into the blood in human and mouse. Its primary function is to occlude blood vessels upon damage and thereby stop excessive bleeding. High fibrinogen levels may contribute to the development of pathological thrombosis, which is one mechanism linking fatty liver disease with cardiovascular disease. Our previous results present ERRγ as key regulator of hepatocytic fibrinogen gene expression in human. In a therapeutic approach, we now tested ERRγ inverse agonist GSK5182 as regulator of fibrinogen levels in mouse hyperfibrinogenemia caused by diet-induced obesity and in mouse hepatocytes. ACEA, a CB1R agonist, up-regulated transcription of mouse fibrinogen via induction of ERRγ, whereas knockdown of ERRγ attenuated the effect of ACEA (10 µM) on fibrinogen expression in AML12 mouse hepatocytes. Deletion analyses of the mouse fibrinogen γ (FGG) gene promoter and ChIP assays revealed binding sites for ERRγ on the mouse FGG promoter. ACEA or adenovirus ERRγ injection induced FGA, FGB and FGG mRNA and protein expression in mouse liver, while ERRγ knockdown with Ad-shERRγ attenuated ACEA-mediated induction of fibrinogen gene expression. Moreover, mice maintained on a high-fat diet (HFD) expressed higher levels of fibrinogen, whereas cannabinoid receptor type 1 (CB1R)-KO mice fed an HFD had nearly normal fibrinogen levels. Finally, GSK5182 (40 mg/kg) strongly inhibits the ACEA (10 mg/kg) or HFD-mediated induction of fibrinogen level in mice. Taken together, targeting ERRγ with its inverse agonist GSK5182 represents a promising therapeutic strategy for ameliorating hyperfibrinogenemia. [ABSTRACT FROM AUTHOR]

Published

2018

26. Estrogen-related receptor γ regulates expression of 17β-hydroxysteroid dehydrogenase type 1 in fetal growth restriction.

Author

Zhu, Hui, Huang, Linhuan, He, Zhiming, Zou, Zhiyong, and Luo, Yanmin

Abstract

Introduction: Estrogen-related receptor γ (ERRγ) and 17β-hydroxysteroid dehydrogenase type 1 (HSD17B1) have important roles in cell invasion and in the proliferation of many types of cancer cells. However, it remains unknown whether ERRγ and HSD17B1 contribute to abnormal placental structure and dysfunction which characterize fetal growth restriction (FGR). Therefore, the aim of this study was to investigate the expression profiles of ERRγ and HSD17B1 in placenta tissues affected by FGR and to examine a possible molecular mechanism by which ERRγ is able to regulate HSD17B1 during development of FGR.Methods: Placenta tissues were collected from women affected by FGR (n = 28) and from women with appropriately gestational age (AGA) (n = 30). Relative mRNA and protein levels of ERRγ and HSD17B1 in both groups were assessed by quantitative real-time PCR, immunohistochemistry, and Western blot analyses. The effect of ERRγ on trophoblast function and its associated mechanistic details were studied in the trophoblast cell line, HTR-8/SVneo, which was transfected with small interfering RNA (siRNA) targeting ERRγ.Results: Both mRNA and protein levels of ERRγ and HSD17B1 were significantly lower in FGR placentae (P < 0.05). When ERRγ expression was knocked down in HTR-8/SVneo cells with siRNA, invasion and proliferation were inhibited. In addition, HSD17B1 expression was significantly decreased. In dual luciferase reporter assays, ERRγ stimulated transcription of HSD17B1 by targeting the ERRγ response element within its 5'-flanking promoter region.Discussion: Aberrant ERRγ expression may contribute to the pathogenesis of FGR by regulating the transcriptional activity of HSD17B1. [ABSTRACT FROM AUTHOR]

Published

2018

27. Genomic integration of ERRγ-HNF1β regulates renal bioenergetics and prevents chronic kidney disease.

Author

Juanjuan Zhao, Lupino, Katherine, Jian Liu, McDonald, Caitlin, Liming Pei, Wilkins, Benjamin J., Chengxiang Qiu, Susztak, Katalin, Yasuhiro Omura, Allred, Amanda L., and Barish, Grant D.

Subjects

*CHRONIC kidney failure, *BIOENERGETICS, *MITOCHONDRIA, *NUCLEAR receptors (Biochemistry), *ESTROGEN-related receptors, *HEPATOCYTE nuclear factors, *KIDNEY diseases

Abstract

Mitochondrial dysfunction is increasingly recognized as a critical determinant of both hereditary and acquired kidney diseases. However, it remains poorly understood how mitochondrial metabolism is regulated to support normal kidney function and how its dysregulation contributes to kidney disease. Here, we show that the nuclear receptor estrogen-related receptor gamma (ERRγ) and hepatocyte nuclear factor 1 beta (HNF1β) link renal mitochondrial and reabsorptive functions through coordinated epigenomic programs. ERRγ directly regulates mitochondrial metabolism but cooperatively controls renal reabsorption via convergent binding with HNF1β. Deletion of ERRγ in renal epithelial cells (RECs), in which it is highly and specifically expressed, results in severe renal energetic and reabsorptive dysfunction and progressive renal failure that recapitulates phenotypes of animals and patients with HNF1β loss-of-function gene mutations. Moreover, ERRγ expression positively correlates with renal function and is decreased in patients with chronic kidney disease (CKD). REC-ERRγ KO mice share highly overlapping renal transcriptional signatures with human patients with CKD. Together these findings reveal a role for ERRγ in directing independent and HNF1β-integrated programs for energy production and use essential for normal renal function and the prevention of kidney disease. [ABSTRACT FROM AUTHOR]

Published

2018

28. MiR-204-5p regulates C2C12 myoblast differentiation by targeting MEF2C and ERRγ.

Author

Cheng, Xiao, Du, Jingjing, Shen, Linyuan, Tan, Zhendong, Jiang, Dongmei, Jiang, Anan, Li, Qiang, Tang, Guoqing, Jiang, Yanzhi, Wang, Jinyong, Li, Xuewei, Zhang, Shunhua, and Zhu, Li

Subjects

*MICRORNA, *MYOBLASTS, *CELL differentiation, *MUSCLE growth, *GENE expression

Abstract

Myogenic differentiation, which occurs in the process of muscle development, is a highly ordered process. Increasing evidence indicates that microRNAs (miRNAs) are important regulators in myogenic processes. In this study, we found that miR-204-5p expression gradually decreased when myoblasts were induced to differentiate. Our results suggested that miR-204-5p blunted myoblast differentiation, which was accompanied with a decreased proportion of myosin heavy chain ( MyHC )-positive cells in myoblasts with augmented expression of miR-204-5p. Furthermore, overexpression of miR-204-5p significantly decreased the MyHC composition of slow-twitch fibers in myoblasts. Luciferase activity assays confirmed that miR-204-5p directly targeted the 3′-untranslated region (3′-UTR) of myocyte enhancer factor 2C ( MEF2C ) and estrogen-related receptor gamma ( ERRγ ). Small interfering RNA (siRNA) technology successfully inhibited the expression of MEF2C and ERRγ . Interference with MEF2C or ERRγ inhibited myoblast differentiation and the formation of slow-twitch fibers. Meanwhile, co-transfection of either si- MEF2C or si-ERRγ with miR-204-5p mimics resulted in a more severe attenuation of myogenic differentiation. In summary, this study demonstrates that miR-204-5p inhibits myoblast differentiation by targeting MEF2C and ERRγ . Our findings suggest that miR-204-5p is a potential regulator that could influence myogenesis. [ABSTRACT FROM AUTHOR]

Published

2018

29. Design, synthesis, and evaluation of simple phenol amides as ERRγ agonists.

Author

Lin, Hua, Doebelin, Christelle, Patouret, Rémi, Garcia-Ordonez, Ruben D., Ra Chang, Mi, Dharmarajan, Venkatasubramanian, Bayona, Claudia Ruiz, Cameron, Michael D., Griffin, Patrick R., and Kamenecka, Theodore M.

Subjects

*AMIDE synthesis, *DRUG design, *ESTROGEN receptors, *STRUCTURE-activity relationship in pharmacology, *HYDRAZONES

Abstract

Herein we report the design and synthesis of a series of simple phenol amide ERRγ agonists based on a hydrazone lead molecule. Our structure activity relationship studies in this series revealed the phenol portion of the molecule to be required for activity. Attempts to replace the hydrazone with more suitable chemotypes led to a simple amide as a viable alternative. Differential hydrogen-deuterium exchange experiments were used to help understand the structural basis for binding to ERRγ and aid in the development of more potent ligands. [ABSTRACT FROM AUTHOR]

Published

2018

30. MiRNA‐320a inhibits trophoblast cell invasion by targeting estrogen‐related receptor‐gamma.

Author

Gao, Tian, Deng, Mou, and Wang, Qian

Subjects

*CELL proliferation, *BIOCHEMISTRY, *STATISTICAL correlation, *DIETARY supplements, *ESTROGEN receptors, *GENE expression, *PHENOMENOLOGY, *OXIDOREDUCTASES, *PLACENTA, *POLYMERASE chain reaction, *PREECLAMPSIA, *REGRESSION analysis, *TRANSCRIPTION factors, *TRANSFER RNA, *WESTERN immunoblotting, *QUANTITATIVE research, *LIPOPOLYSACCHARIDES, *IN vitro studies

Abstract

Abstract: Aim: MicroRNAs (miRs) play an essential role in the modulation of trophoblast function. We explored miR‐320a expression in the human placenta. In addition, we report the promising effect and target functional loop of miR‐320a in trophoblasts. Methods: MiR‐320a expression was investigated in both pre‐eclamptic and healthy placenta tissues by quantitative real time‐polymerase chain reaction to determine how miR‐320a affected invasion, proliferation and migration in trophoblasts. A lipopolysaccharide (LPS) model was established in trophoblasts to reveal how LPS supplementation stimulated miR‐320a expression. Western blot was applied to measure protein expression, which was involved in pathways modulated by miR‐320a in pre‐eclamptic placentas. Results: MiR‐320a expression was enhanced in the placental specimens of pre‐eclamptic patients. Excessive miR‐320a expression remarkably suppressed trophoblast invasion but did not affect migration or proliferation. However, transfection with miR‐320a inhibitor reinforced trophoblast invasion in vitro. Luciferase assays verified that estrogen‐related receptor‐gamma (ERRγ) served as a direct target of miR‐320a. Quantitative real‐time polymerase chain reaction and Western blot demonstrated that excessive miR‐320a expression downregulated ERRγ transcription and translation. Additionally, LPS supplementation showed excessive miR‐320a expression and ERRγ downregulation. Impaired ERRγ and enhanced miR‐320a expression occurred in PE placentas compared to controls. Pearson correlation and linear regression analysis revealed that miR‐320a expression was negatively related to ERRγ expression in normal and pre‐eclamptic placentas. Conclusions: These findings indicate that miR‐320a overexpression causes anomalous placentation by targeting ERRγ. Our research reveals the promising effect of miR‐320a and the ERRγ functional loop on placentation. [ABSTRACT FROM AUTHOR]

Published

2018

31. Estrogen-related receptor γ (ERRγ) is a key regulator of lysyl oxidase gene expression in mouse hepatocytes.

Author

Fan, Yiwen, Na, Soon-Young, Jung, Yoon Seok, Radhakrishnan, Kamalakannan, and Choi, Hueng-Sik

Subjects

*LYSYL oxidase, *GENE expression, *LIVER cells, *NUCLEAR receptors (Biochemistry), *EXTRACELLULAR matrix proteins, *ESTROGEN, *HEPATIC fibrosis

Abstract

• ERRγ up-regulates LOX gene expression in mouse hepatocytes. • Pro-inflammatory cytokine, IL6 induces LOX gene expression through ERRγ. • The specific inverse agonist of ERRγ inhibits IL6-induced LOX gene expression. Lysyl oxidase (LOX), the copper-dependent extracellular enzyme, plays a critical role in the regulation of protein cross-linking in the extracellular matrix (ECM). It is also involved in liver regeneration and liver fibrosis. However, the mechanism of LOX regulation in mouse hepatocytes is still unclear. Here, we identify a molecular mechanism showing that orphan nuclear receptor estrogen-related receptor γ (ERRγ) regulates LOX gene expression in the presence of the pro-inflammatory cytokine, interleukin 6 (IL6). IL6 significantly stimulated the expression of ERRγ and LOX in mouse hepatocytes. Overexpression of ERRγ increased LOX mRNA and protein levels. Moreover, knockdown of ERRγ attenuated IL6-mediated LOX gene expression at mRNA and protein levels. Overexpression of ERRγ or IL6 treatment upregulated LOX gene promoter activity, while knockdown of ERRγ decreased the IL6-induced LOX promoter activity. Furthermore, GSK5182, a specific ERRγ inverse agonist, inhibited the induction effect of IL6 on LOX promoter activity and gene expression in mouse hepatocytes. Overall, our study elucidates the mechanism involved in the LOX gene regulation by nuclear receptor ERRγ in response to IL6 in mouse hepatocytes, suggesting that, in conditions such as chronic inflammation, IL6 may contribute to liver fibrosis via inducing LOX gene expression. Thus, LOX gene regulation by the inverse agonist of ERRγ can be applied to improve liver fibrosis. [ABSTRACT FROM AUTHOR]

Published

2023

32. The estrogen-related receptor γ modulator, GSK5182, inhibits osteoclast differentiation and accelerates osteoclast apoptosis

Author

Je-Yong Choi, Dong-Kyo Lee, Hye-Jin Yoon, Xiangguo Che, Xian Jin, and Hyun-Ju Kim

Subjects

Male, Cell Survival, GSK5182, Osteoclasts, NFATc1, Apoptosis, Biochemistry, Article, Cell Line, Mice, 03 medical and health sciences, Estrogen-related receptor, Osteoclast, medicine, Animals, Receptor, Molecular Biology, Transcription factor, 0303 health sciences, biology, Kinase, Chemistry, ERRγ, 030302 biochemistry & molecular biology, Cell Differentiation, General Medicine, Cell biology, Mice, Inbred C57BL, Tamoxifen, IκBα, medicine.anatomical_structure, Nuclear receptor, RANKL, biology.protein

Abstract

Estrogen-related receptor γ (ERRγ), a member of the orphan nuclear receptor family, is a key mediator in cellular metabolic processes and energy homeostasis. Therefore, ERRγ has become an attractive target for treating diverse metabolic disorders. We recently reported that ERRγ acts as a negative regulator of osteoclastogenesis induced by receptor activator of nuclear factor-κB ligand (RANKL). In the present study, we explored the effects of an ERRγ-specific modulator, GSK5182, on ERRγ-regulated osteoclast differentiation and survival. Interestingly, GSK5182 increased ERRγ protein levels much as does GSK4716, which is an ERRγ agonist. GSK5182 inhibited osteoclast generation from bone-marrow-derived macrophages without affecting cytotoxicity. GSK5182 also attenuated RANKL-mediated expression of c-Fos and nuclear factor of activated T-cells cytoplasmic 1 (NFATc1), pivotal transcription factors for osteoclastogenesis. Arrested osteoclast differentiation was associated with reduced RANK expression, but not with the M-CSF receptor, c-Fms. GSK5182 strongly blocked the phosphorylation of IκBα, c-Jun N-terminal kinase, and extracellular signal-regulated kinase in response to RANKL. GSK5182 also suppressed NF-κB promoter activity in a dose-dependent manner. In addition to osteoclastogenesis, GSK5182 accelerated osteoclast apoptosis by caspase-3 activation. Together, these results suggest that GSK5182, a synthetic ERRγ modulator, may have potential in treating disorders related to bone resorption. [BMB Reports 2021; 54(5): 266-271].

Published

2021

33. 低氧对学习记忆相关蛋白的影响研究进展.

Author

李晓娜, 靳国恩, and 李生花

Abstract

Hypoxia exposure can result in different damage to the body. Especially, it have obvious effects on the nerve system. It can cause and aggravate cerebra learning and memory impairment through influencing some learning and memory related protin. This review focus on the introduction of learning memory related proteins, such as fatty Acid-binding Protein 5, estrogen-related receptor 酌, forkhead box p2, Iduna protein and tau protein and so on. Whats' more, it also respectively elaborate that the influence of hypobaric hypoxia environment to these proteins and to provide theory evidence for the clinical prevention and treatment of cerebrum learning and memory impairment caused for the high altitude environment. [ABSTRACT FROM AUTHOR]

Published

2017

34. Estrogen receptor-related receptor γ regulates testicular steroidogenesis through direct and indirect regulation of steroidogenic gene expression.

Author

Park, Eunsook, Kumar, Sudeep, Lee, Bobae, Kim, Kyung-Jin, Seo, Jeong-Eun, Choi, Hueng-Sik, and Lee, Keesook

Subjects

*ESTROGEN receptors, *GENETIC regulation, *DELETION mutation, *STEROIDS, *PROTEASOMES

Abstract

Biosynthesis of testosterone, which mainly occurs in testicular Leydig cells, is controlled by steroidogenic proteins, such as StAR and P450c17. Although estrogen-related receptor gamma (ERRγ), an orphan nuclear receptor, is expressed in the testis, its role is not well understood. In this study, we investigated the expression of ERRγ in Leydig cells and its molecular action on testicular steroidogenesis. ERRγ is expressed in mouse Leydig cells from pre-pubertal stages. ERRγ overexpression in primary Leydig cells elevated the production of testosterone with a marked increase of P450c17 expression at both mRNA and protein levels, albeit decreased expression of StAR. Promoter-reporter analyses showed that ERRγ directly regulated the P450c17 promoter. Further deletion mutant analyses of the P450c17 promoter revealed that ERRγ activated expression of the P450c17 gene by binding to an ERRγ response element within the P450c17 promoter. Meanwhile, ERRγ suppressed cAMP-induced activation of the StAR promoter, which was likely due to ERRγ-mediated inhibition of the transcriptional activity of Nur77, which is induced by cAMP and regulates StAR gene expression in Leydig cells. Interestingly, ERRγ coexpression also decreased the protein level of Nur77, which occurred through proteasomal degradation, suggesting ERRγ-mediated regulation of steroidogenesis at another level. Taken together, these findings suggest that ERRγ regulates testicular steroidogenesis, both directly controlling and indirectly fine-tuning the expression of steroidogenic genes. [ABSTRACT FROM AUTHOR]

Published

2017

35. N6-methyladenosine-induced ERRγ triggers chemoresistance of cancer cells through upregulation of ABCB1 and metabolic reprogramming

Author

Hong-Sheng Wang, Li-Chen Ge, Long Wu, Yanxi Peng, Zhuojia Chen, Weiling He, Jiawang Zhou, Hui Huang, Cheng Ming Chiang, and Xinyao Lin

Subjects

0301 basic medicine, Messenger RNA, Chemistry, ERRγ, Medicine (miscellaneous), Estrogen receptor, ABCB1, CPT1B, In vitro, FAO, 3. Good health, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, 0302 clinical medicine, Downregulation and upregulation, Transcription (biology), 030220 oncology & carcinogenesis, Cancer cell, Cancer research, N6-Methyladenosine, Receptor, Pharmacology, Toxicology and Pharmaceutics (miscellaneous), Chemoresistance, Research Paper

Abstract

Background: Drug resistance severely reduces treatment efficiency of chemotherapy and leads to poor prognosis. However, regulatory factors of chemoresistant cancer cells are largely unknown. Methods: The expression of estrogen receptor related receptors (ERRs) in chemoresistant cancer cells are checked. The roles of ERRγ in chemoresistance are confirmed by in vitro and in vivo studies. The mechanisms responsible for ERRγ-regulated expression of ABCB1 and CPT1B are investigated. Results: The expression of ERRγ is upregulated in chemoresistant cancer cells. Targeted inhibition of ERRγ restores the chemosensitivity. ERRγ can directly bind to the promoter of ABCB1 to increase its transcription. An elevated interaction between ERRγ and p65 in chemoresistant cells further strengthens transcription of ABCB1. Further, ERRγ can increase the fatty acid oxidation (FAO) in chemoresistant cells via regulation of CPT1B, the rate-limiting enzyme of FAO. The upregulated ERRγ in chemoresistant cancer cells might be due to increased levels of N6-methyladenosine (m6A) can trigger the splicing of precursor ESRRG mRNA. Conclusions: m6A induced ERRγ confers chemoresistance of cancer cells through upregulation of ABCB1 and CPT1B.

Published

2020

36. Estrogen-related receptor (ERR) γ protects against puromycin aminonucleoside-induced podocyte apoptosis by targeting PI3K/Akt signaling.

Author

Gong, Wei, Yu, Jing, Wang, Qilei, Li, Shuzhen, Song, Jiayu, Jia, Zhanjun, Huang, Songming, and Zhang, Aihua

Subjects

*ESTROGEN-related receptors, *PUROMYCIN, *APOPTOSIS, *PHOSPHATIDYLINOSITOL 3-kinases, *CELLULAR signal transduction

Abstract

Accumulating evidence has shown that podocyte apoptosis is of vital importance for the development of glomerulosclerosis and progressive loss of renal function. However, the molecular mechanisms leading to podocyte apoptosis are still elusive. In this study, we investigated the role of estrogen-related receptor (ERR) γ in podocyte apoptosis, as well as the underlying mechanisms. Treatment of PAN caused a dose- and time-dependent podocyte apoptosis in line with a significant downregulation of ERRγ. Interestingly, the occurrence of ERRγ downregulation appeared earlier than the onset of cell apoptosis, suggesting a potential that ERRγ reduction triggered apoptotic response in podocyte. To test this hypothesis, ERRγ siRNA was administered to the podocytes. Strikingly, ERRγ silencing resulted in a significant cell apoptosis accompanied with increased injury markers of B7-1 and cathepsin L and decreased podocyte protein nephrin. In contrast, overexpression of ERRγ remarkably attenuated PAN-induced cell apoptosis. Moreover, ERRγ overexpression stimulated PI3K/Akt signaling pathway evidenced by increased expression of PI3K subunits p85α and p110α and phosphorylated Akt. Importantly, a specific PI3K inhibitor LY294002 entirely reversed the anti-apoptotic effect of ERRγ following PAN treatment. Finally, we observed a striking downregulation of ERRγ in PAN-treated rat kidneys, suggesting that our cell model replicated the in vivo condition. Taken together, these data highly suggested that ERRγ played a novel role in modulating podocyte apoptosis by targeting PI3K/Akt signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2016

37. Low doses of bisphenol A stimulate the proliferation of breast cancer cells via ERK1/2/ERRγ signals.

Author

Song, Haixing, Zhang, Tao, Yang, Ping, Li, Minhui, Yang, Yuhan, Wang, Yuanyuan, Du, Jun, Pan, Kejian, and Zhang, Kun

Subjects

*BISPHENOL A, *BREAST cancer, *CANCER cells, *G protein coupled receptors, *PHOSPHORYLATION

Abstract

The effects and mechanisms of bisphenol A (BPA) on the development of breast cancer are still not well illustrated. The present study revealed that nanomolar BPA significantly promoted the proliferation of both estrogen receptor (ER) positive (MCF-7) and negative (SkBr3) breast cancer cells, which was confirmed by up regulation of proliferating cell nuclear antigen (PCNA) and Bcl-2. Neither ERα nor G-protein-coupled estrogen receptor (GPER) mediated this effect of BPA because their inhibitors had no effect on the BPA induced cell proliferation. However, silencing of estrogen related receptor gamma (ERRγ) by its specific siRNA significantly abolished BPA induced proliferation of breast cancer cells, while si-ERRα had no similar effect. Moreover, nanomolar BPA up regulated the mRNA and protein levels of ERRγ and triggered its nuclear translocation via a time dependent manner. Further studies revealed that 10 − 8 M BPA obviously increased the phosphorylation of ERK1/2, while had no similar effect on the phosphorylation of JNK and p38 MAPK. Further, PD 98059, the inhibitor of ERK1/2, significantly abolished the BPA induced up regulation of ERRγ and proliferation of breast cancer cells. Collectively, our results revealed that nanomolar BPA can trigger the proliferation of breast cancer cells via ERK1/2/ERRγ signals. Given that nanomolar BPA has been widely detected in human tissues, the clinical relevance of BPA and breast cancer progression should be further investigated. [ABSTRACT FROM AUTHOR]

Published

2015

38. Unfolding of Imminent Bio-Signatures in the Prognosis of Thyroid Cancer; The Emergence of Estrogen Related Receptor Gamma (ERRγ) as a Hurricane.

Author

Gulwani D, Upadhyay P, Goel R, Sarangthem V, and Debraj Singh T

Subjects

Humans, Biomarkers, Biopsy, Fine-Needle, Drug Inverse Agonism, Estrogens, Prognosis, Proto-Oncogene Proteins B-raf, Thyroid Cancer, Papillary, Protein Folding, Adenocarcinoma, Thyroid Neoplasms genetics

Abstract

Thyroid cancer's incidence has increased by leaps and bounds over the last years and accounts for 2.8% of new cases of cancers. This increasing bar is partially assisted by enormous screening to understand the sub-clinical status. Advanced tumor growth is the leading cause of thyroid cancer-associated death. However, the complete understanding of the underlying cause is still to be disclosed. The updated clinical assessment evidenced a few major oncogenes viz. RAS, BRAF, and RET as key drivers in the development and progression of thyroid cancer. The BRAF mutation, a major cause of aggressive tumor type in papillary thyroid carcinoma, is frequently reported. The characteristic oncogenic changes imply thyroid cancer to be clinically an ideal model for targeted therapy against RET, RAS, and BRAF mutation. Though the sensitive biochemical marker assay has been improvised, the diagnosis of thyroid follicular neoplasms is still a big challenge as the biopsy aspiration cannot define the nature of the tumor in 30% of the cases. The main hurdle is assisted distinction between follicular thyroid lesions. The discrimination between follicular thyroid adenomas and carcinomas is histologically accomplished. This strictly necessitates the identification of sensitive diagnostic/prognostic markers to mitigate the risk of thyroid cancer and to avoid the unnecessary hurdles of biopsy and surgery. An array of prognostic biomarkers is being used for the diagnosis of thyroid cancer. However, Estrogen Related Receptor Gamma (ERRγ) is setting a new benchmark among the clinical biomarkers. The dramatic expression of ERRγ in thyroid cancer enables itself not only to serve as a characteristic diagnostic marker but also as a therapeutic target. Recently, we have reported that ERRγ is upregulated in 96 papillary thyroid cancer (PTC) and 26 poorly differentiated/ anaplastic thyroid cancer (ATC) samples. Various synthetic ERRγ inverse agonists viz. GSK5182, DN200434, and 24e are fully proved to modulate ERRγ expression in ATC to attain partial cure. If this finding can be assayed on a larger scale the evaluation of this marker may be warranted and informative. This review article highlights the ascending sheds of clinical biomarkers of thyroid cancer. This also reveals the clinical importance of ERRγ as an evolving diagnostic and therapeutic target in thyroid cancer.

Published

2023

39. Involvement of estrogen-related receptor-γ and mitochondrial content in intrauterine growth restriction and preeclampsia.

Author

Poidatz, Dorothée, Dos Santos, Esther, Duval, Fabien, Moindjie, Hadia, Serazin, Valérie, Vialard, François, De Mazancourt, Philippe, and Dieudonné, Marie-Noëlle

Subjects

*ESTROGEN-related receptors, *MITOCHONDRIAL physiology, *FETAL development, *PREECLAMPSIA, *ORIGIN of life

Abstract

Objective To measure mitochondrial content and the expression of estrogen-related receptor-γ (ERRγ, a major inducer of mitochondrial biogenesis) in placentas from women with intrauterine growth restriction (IUGR) associated or not with pre-eclampsia (PE), relative to control placentas. Design Case–control study. Setting Teaching hospital and university research laboratory. Patient(s) Thirty-nine placentas from women with IUGR, 8 IUGR+PE, and 30 controls. Intervention(s) None. Main Outcome Measure(s) Mitochondrial DNA and protein content, gene and protein expression. Result(s) We observed significantly lower placental mitochondrial DNA and protein contents (associated with down-regulation of ERRγ expression) in IUGR and IUGR+PE placentas, relative to control placentas. Our results also revealed that the placental mitochondrial DNA content was directly correlated with fetal weight. Moreover, we observed significantly lower peroxisome proliferator-activated receptor-γ coactivator-1α and sirtuin 1 messenger RNA expression levels in IUGR+PE placentas, relative to control placentas. Conclusion(s) The low mitochondrial DNA and protein contents observed in IUGR placentas are probably due to down-regulation of ERRγ expression. This finding suggests that ERRγ has a major role in the control of placental development. [ABSTRACT FROM AUTHOR]

Published

2015

40. Estrogen-related receptor gamma regulates dopaminergic neuronal phenotype by activating GSK3β/ NFAT signaling in SH- SY5Y cells.

Author

Lim, Juhee, Choi, Hueng‐Sik, and Choi, Hyun Jin

Subjects

*ESTROGEN-related receptors, *EMBRYOLOGY, *NEURAL development, *TRETINOIN, *DOPAMINERGIC neurons, *NEUROBLASTOMA, *MONOAMINE transporters

Abstract

The orphan nuclear receptor estrogen-related receptor gamma ( ERRγ) is highly expressed in the nervous system during embryogenesis and in adult brains, but its physiological role in neuronal development remains unknown. In this study, we evaluated the relevance of ERRγ in regulating dopaminergic ( DAergic) phenotype and the corresponding signaling pathway. We used retinoic acid ( RA) to differentiate human neuroblastoma SH- SY5Y cells. RA induced neurite outgrowth of SH- SY5Y cells with an increase in DAergic neuron-like properties, including up-regulation of tyrosine hydroxylase, dopamine transporter, and vesicular monoamine transporter 2. ERRγ, but not ERRα, was up-regulated by RA, and participated in RA effect on SH- SY5Y cells. ERRγ over-expression enhanced mature DAergic neuronal phenotype with neurite outgrowth as with RA treatment; and RA-induced increase in DAergic phenotype was attenuated by silencing ERRγ expression. ERRγ appears to have a crucial role in morphological and functional regulation of cells that is selective for DAergic neurons. Polo-like kinase 2 was up-regulated in ERRγ-over-expressing SH- SY5Y cells, which was involved in phosphorylation of glycogen synthase kinase 3β and resulting downstream activation of nuclear factor of activated T cells. The likely involvement of ERRγ in regulating the DAergic neuronal phenotype makes this orphan nuclear receptor a novel target for understanding DAergic neuronal differentiation. [ABSTRACT FROM AUTHOR]

Published

2015

41. Retinal hypoxia induces vascular endothelial growth factor through induction of estrogen-related receptor γ.

Author

Do, Ji Yeon, Choi, Young Keun, Kook, Hyun, Suk, Kyoungho, Lee, In-Kyu, and Park, Dong Ho

Subjects

*VASCULAR endothelial growth factors, *ESTROGEN receptors, *HYPOXEMIA, *GENE expression, *BLINDNESS, *PATHOLOGICAL physiology

Abstract

Ischemic retinopathies causing overexpression of pro-angiogenic factors, including vascular endothelial growth factor (VEGF), are the most common cause of blindness. Thus, understanding the pathophysiology of targetable pathways that regulate retinal VEGF is of great interest. A conserved binding site for estrogen-related receptor γ (ERRγ) has been identified in the promoter of the Vegfa gene. ERRγ is a constitutively active orphan nuclear receptor and its expression is increased by hypoxic stimuli in metabolically active tissues. This study evaluated the role of ERRγ in the ischemic retina and the anti-VEGF potential of GSK5182, a selective inverse agonist of ERRγ. In an oxygen-induced retinopathy (OIR) mouse model, immunohistochemistry showed significantly increased ERRγ expression in the ganglion cell layer at postnatal day (P) 17. In a ganglion cell line (RGC-5), mRNA and protein levels of ERRγ were increased by desferrioxamine treatment and hypoxic conditions (1% O 2 ). Transient transfection of RGC-5 cells revealed that ERRγ regulated Vegfa expression and this was inhibited by GSK5182. Intravitreal injection of GSK5182 into the OIR model at P14 inhibited retinal Vegfa mRNA expression at P17. GSK5182 suppresses hypoxia-induced VEGF expression via ERRγ; therefore, ERRγ could be a treatment target for ischemic retinopathies. [ABSTRACT FROM AUTHOR]

Published

2015

42. Expression of estrogen, estrogen related and androgen receptors in adrenal cortex of intact adult male and female rats.

Author

Trejter, Marcin, Jopek, Karol, Celichowski, Piotr, Tyczewska, Marianna, Malendowicz, Ludwik K., and Rucinski, Marcin

Subjects

ADRENAL cortex, ANDROGENS, ANIMAL experimentation, ESTROGEN, GENE expression, POLYMERASE chain reaction, RATS, RESEARCH funding, RNA, SEX distribution, T-test (Statistics), FLUORESCENCE in situ hybridization, MICROARRAY technology, DESCRIPTIVE statistics

Abstract

Introduction. Adrenocortical activity in various species is sensitive to androgens and estrogens. They may affect adrenal cortex growth and functioning either via central pathways (CRH and ACTH) or directly, via specific receptors expressed in the cortex and/or by interfering with adrenocortical enzymes, among them those involved in steroidogenesis. Only limited data on expression of androgen and estrogen receptors in adrenal glands are available. Therefore the present study aimed to characterize, at the level of mRNA, expression of these receptors in specific components of adrenal cortex of intact adult male and female rats. Material and methods. Studies were performed on adult male and female (estrus) Wistar rats. Total RNA was isolated from adrenal zona glomerulosa (ZG) and fasciculate/reticularis (ZF/R). Expression of genes were evaluated by means of Affymetrix® Rat Gene 1.1 ST Array Strip and QPCR. Results. By means of Affymetrix® Rat Gene 1.1 ST Array we examined adrenocortical sex differences in the expression of nearly 30,000 genes. All data were analyzed in relation to the adrenals of the male rats. 32 genes were differentially expressed in ZG, and 233 genes in ZF/R. In the ZG expression levels of 24 genes were lower and 8 higher in female rats. The more distinct sex differences were observed in the ZF/R, in which expression levels of 146 genes were lower and 87 genes higher in female rats. Performed analyses did not reveal sex differences in the expression levels of both androgen (AR) and estrogen (ER) receptor genes in the adrenal cortex of male and female rats. Therefore matrix data were validated by QPCR. QPCR revealed higher expression levels of AR gene both in ZG and ZF/R of male than female rats. On the other hand, QPCR did not reveal sex-related differences in the expression levels of ERα, ERβ and non-genomic GPR30 (GPER-1) receptor. Of those genes expression levels of ERα genes were the highest. In studied adrenal samples the relative expression of ERα mRNA was higher than ERβ mRNA. In adrenals of adult male and female rats expression levels of estrogen-related receptors ERRα and ERRβ were similar, and only in the ZF/R of female rats ERRγ expression levels were significantly higher than in males. We also analyzed expression profile of three isoforms of steroid 5α-reductase (Srd5a1, Srd5a2 and Srd5a3) and aromatase (Cyp19a1) and expression levels of all these genes were similar in ZG and ZF/R of male and female rats. Conclusions. In contrast to Affymetrix microarray data QPCR revealed higher expression levels of AR gene in adrenal glands of the male rats. In adrenals of both sexes expression levels of ERα, ERβ, non-genomic GPR30 (GPER-1), ERRα and ERRβ receptors were comparable. The obtained results suggest that acute steroidogenic effect of estrogens on corticosteroid secretion may be mediated by non-genomic GPR30. [ABSTRACT FROM AUTHOR]

Published

2015

43. An Inverse Agonist GSK5182 Increases Protein Stability of the Orphan Nuclear Receptor ERRγ via Inhibition of Ubiquitination.

Author

Na SY, Kim KS, Jung YS, Kim DK, Kim J, Cho SJ, Lee IK, Chung J, Kim JS, and Choi HS

Subjects

Furylfuramide, Ubiquitination, Protein Stability, Orphan Nuclear Receptors, Drug Inverse Agonism

Abstract

The orphan nuclear receptor, estrogen-related receptor γ (ERRγ) is a constitutively active transcription factor involved in mitochondrial metabolism and energy homeostasis. GSK5182, a specific inverse agonist of ERRγ that inhibits transcriptional activity, induces a conformational change in ERRγ, resulting in a loss of coactivator binding. However, the molecular mechanism underlying the stabilization of the ERRγ protein by its inverse agonist remains largely unknown. In this study, we found that GSK5182 inhibited ubiquitination of ERRγ, thereby stabilizing the ERRγ protein, using cell-based assays and confocal image analysis. Y326 of ERRγ was essential for stabilization by GSK5182, as ligand-induced stabilization of ERRγ was not observed with the ERRγ-Y326A mutant. GSK5182 suppressed ubiquitination of ERRγ by the E3 ligase Parkin and subsequent degradation. The inhibitory activity of GSK5182 was strong even when the ERRγ protein level was elevated, as ERRγ bound to GSK5182 recruited a corepressor, small heterodimer partner-interacting leucine zipper (SMILE), through the activation function 2 (AF-2) domain, without alteration of the nuclear localization or DNA-binding ability of ERRγ. In addition, the AF-2 domain of ERRγ was critical for the regulation of protein stability. Mutants in the AF-2 domain were present at higher levels than the wild type in the absence of GSK5182. Furthermore, the ERRγ-L449A/L451A mutant was no longer susceptible to GSK5182. Thus, the AF-2 domain of ERRγ is responsible for the regulation of transcriptional activity and protein stability by GSK5182. These findings suggest that GSK5182 regulates ERRγ by a unique molecular mechanism, increasing the inactive form of ERRγ via inhibition of ubiquitination.

Published

2022

44. 一次有氧运动对诱导型 HIF-1α 转基因鼠骨骼肌 ERRα/γ 核蛋白表达的影响.

Author

姬卫秀 and 张纓

Abstract

Copyright of Journal of Beijing Sport University is the property of Beijing University of Physical Education and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2015

45. Binding and Activation of Estrogen-Related Receptor γ: A Novel Molecular Mechanism for the Estrogenic Disruption Effects of DDT and Its Metabolites.

Author

Wang L, Qie Y, Yang Y, and Zhao Q

Subjects

Receptors, Estrogen metabolism, DDT, Estrogens

Abstract

DDT and its metabolites (DDTs) can induce estrogenic effects. Previous mechanistic investigations mainly concentrated on activating the genomic transcription of estrogen receptor (ER) pathways. Here, we identified whether estrogen-related receptor γ (ERRγ), an orphan nuclear receptor, is a potential target of DDTs by receptor binding, transcriptional activity, and receptor-mediated pathway assays. Fluorescence polarization-based binding assays showed that all eight DDTs bound to ERRγ directly, with K values ranging from 0.73-168.82 μM. Among them, 2,2-bis(4-chlorophenyl)ethanol (4,4'-DDOH) exhibited the highest binding affinity, which was 2.5-fold stronger than GSK4716, a well-known ERRγ agonist. Eight DDTs exhibited agonistic activity toward the ERRγ pathway, with 4,4'-DDOH showing the strongest potency. In silico studies revealed that DDTs tended to bind with ERRγ in the agonistic conformation. Using a SKBR3 breast cancer cell model, we further found that nanomolar or micromolar levels of DDTs significantly activated the ERRγ pathway in cells and induced cell proliferation through the ERRγ-modulated cell cycle. These results indicated that the binding and activation of DDTs to ERRγ might serve as molecular initiating events for subsequent ERRγ-mediated signaling pathways and adverse outcomes. Overall, our results demonstrated that ERRγ might be a crucial pathway involved in the estrogenic disruption effects of DDTs.d values ranging from 0.73-168.82 μM. Among them, 2,2-bis(4-chlorophenyl)ethanol (4,4'-DDOH) exhibited the highest binding affinity, which was 2.5-fold stronger than GSK4716, a well-known ERRγ agonist. Eight DDTs exhibited agonistic activity toward the ERRγ pathway, with 4,4'-DDOH showing the strongest potency. In silico studies revealed that DDTs tended to bind with ERRγ in the agonistic conformation. Using a SKBR3 breast cancer cell model, we further found that nanomolar or micromolar levels of DDTs significantly activated the ERRγ pathway in cells and induced cell proliferation through the ERRγ-modulated cell cycle. These results indicated that the binding and activation of DDTs to ERRγ might serve as molecular initiating events for subsequent ERRγ-mediated signaling pathways and adverse outcomes. Overall, our results demonstrated that ERRγ might be a crucial pathway involved in the estrogenic disruption effects of DDTs.

Published

2022

46. Effect of Acute Treadmill Run with Different Duration on Nuclear Protein ERRα/γ.

Author

JI Wei-xiu, LIU Si-xue, and ZHANG Ying

Published

2014

47. Polymorphic AAAG Repeat Length in Estrogen-Related Receptor Gamma (ERRγ) and Risk of Breast Cancer in Iranian Women.

Author

Karimi, Padideh, Hematti, Simin, Safari, Foruzan, and Tavassoli, Manoochehr

Subjects

*GENETIC polymorphisms, *ESTROGEN receptors, *BREAST cancer risk factors, *DISEASES in women, *IRANIANS, *CELLULAR signal transduction, *ALLELES, *GENE expression, *DISEASES

Abstract

Estrogen-related receptors (ERRs) alpha, beta, and gamma are orphan nuclear receptors that modulate the estrogen signaling pathway and play roles in the regulation of breast cancer cell growth. To determine the association between breast cancer risk and alleles of the tetranucleotide repeat (AAAG)n in the intron of ERRγ gene, a case-control study of 200 breast cancer patients and 200 controls was performed in Iranian women. Our results demonstrate that women with short AAAG repeat are at higher risk of breast cancer (OR 7). This result suggests a possible involvement of polymorphic AAAG repeat of ERRγ gene in regulating its expression. [ABSTRACT FROM AUTHOR]

Published

2013

48. MiR-433 mediates ERRγ-suppressed osteoblast differentiation via direct targeting to Runx2 mRNA in C3H10T1/2 cells

Author

Kim, Eun-Jung, Kang, In-Hong, Lee, Jeong Woong, Jang, Won-Gu, and Koh, Jeong-Tae

Subjects

*OSTEOBLASTS, *CELL differentiation, *MESSENGER RNA, *MICRORNA, *ALKALINE phosphatase, *REVERSE transcriptase polymerase chain reaction, *MESENCHYMAL stem cells

Abstract

Abstract: Aims: MicroRNAs (miRNA) are involved in various biological processes including cellular differentiation. However, the role of miR-433 in osteoblast differentiation remains poorly understood. The objective of this study was to investigate the effect of miR-433 on BMP2-induced osteoblast differentiation. Main methods: The expression of mature miR-433 in cells was detected by real-time PCR. RT-PCR or real-time PCR was used to confirm the expression of osteogenic genes. For the activation or inhibition of miR-433 expression, we used a precursor form of miR-433 or anti-miR-433. Functional activity of miR-433 and Runx2 was evaluated by promoter study. Osteoblast differentiation was evaluated by analyzing alkaline phosphatase (ALP) activity. Key finding: ERRγ increased miR-433 expression in the mesenchymal stem cell lineage C3H10T1/2. During the BMP2-induction of osteoblastic differentiation of C3H10T1/2, ERRγ and miR433 expression decreased. In addition, during the osteoblastic differentiation, overexpression of ERRγ or miR-433 inhibited the expression of osteogenic marker genes such as Runx2 and ALP. A computer-based prediction algorithm led to the identification of three miR-433 binding sites [S1 (114–145bp), S2 (3735–3766bp) and S3 (3828–3860bp)] on the 3′-UTR of Runx2 mRNA. Furthermore, miR-433 directly targeted S1 and S2, and decreased the level of Runx2 transcript. In addition, miR-433 inhibited BMP2-induced 6×OSE-Luc activities. Anti-miR-433 recovered ERRγ-suppressed Runx2 expression and ALP activity. Significance: These results demonstrated that miR-433 suppressed BMP2-indcued osteoblast differentiation by decreasing the level of Runx2 transcript. [Copyright &y& Elsevier]

Published

2013

49. Estrogen-related receptor gamma modulates energy metabolism target genes in human trophoblast.

Author

Poidatz, D., Dos Santos, E., Brulé, A., De Mazancourt, P., and Dieudonné, M.N.

Subjects

ESTROGEN-related receptors, ENERGY metabolism, TROPHOBLAST, PLACENTA development, PLACENTA physiology, CELL differentiation, CELL migration, CELL proliferation, REVERSE transcriptase polymerase chain reaction

Abstract

Abstract: Placenta growth and functions depend on correct trophoblast migration, proliferation, and differentiation. The placenta has a critical role in gas and nutrient transport. To accomplish these numerous functions, the placenta depends on a highly efficient energy metabolism control. Recent studies showed that the orphan nuclear receptor Estrogen-Related Receptor gamma (ERRγ) is highly expressed in human placentas. As ERRγ has been described as a major energy metabolism regulator, we investigated ERRγ expression and putative roles on energy homeostasis in human trophoblast from first trimester placentas. First, we showed that ERRγ expression level increased during pregnancy and that ERRγ was more abundant in villous than in extravillous trophoblasts. We also observed that ERRγ expression increased during trophoblast differentiation. Second, we demonstrated that mitochondrial biogenesis and expression of some energy metabolism target genes decreased when ERRγ expression was impaired. Altogether, these results suggest that ERRγ could be implicated in the energy metabolism regulation of human trophoblasts. [Copyright &y& Elsevier]

Published

2012

50. Transcriptional activity of estrogen-related receptor γ (ERRγ) is stimulated by the phytoestrogen equol

Author

Hirvonen, Johanna, Rajalin, Ann-Marie, Wohlfahrt, Gerd, Adlercreutz, Herman, Wähälä, Kristiina, and Aarnisalo, Piia

Subjects

*ESTROGEN receptors, *PHYTOESTROGENS, *GENETIC transcription, *NUCLEAR receptors (Biochemistry), *ANTAGONISTIC fungi, *LIGAND binding (Biochemistry)

Abstract

Abstract: Estrogen-related receptor γ (ERRγ) is an orphan nuclear receptor lacking identified natural ligands. The synthetic estrogen receptor ligands 4-hydroxytamoxifen and diethylstilbestrol have, however, been shown to bind to and abolish the constitutive transcriptional activity of ERRγ. Certain phytoestrogens were recently reported to act as agonists of the related ERRα. We investigated whether phytoestrogens also modulated the transcriptional activity of ERRγ. We analyzed a selection of phytoestrogens for their potential agonistic or antagonistic activity on ERRγ. In transiently transfected PC-3 and U2-OS cells equol stimulated the transcriptional activity of ERRγ and enhanced its interaction with the coactivator GRIP1. The agonistic effect of equol was abolished by 4-hydroxytamoxifen. Equol induced a conformational change in the ERRγ ligand-binding domain. Based on structural models of the ERRγ ligand-binding domain, we were able to introduce mutations that modulated the agonistic potential of equol. Finally, equol enhanced the growth inhibitory effect of ERRγ on the prostate cancer PC-3 cells. In conclusion, we have demonstrated that the phytoestrogen equol acts as an ERRγ agonist. [ABSTRACT FROM AUTHOR]

Published

2011