Mi Ra Chang scite author profile

SUMMARY Ligand binding to proteins is not a static process, but rather involves a number of complex dynamic transitions. A flexible ligand can change conformation upon binding its target. The conformation and dynamics of a protein can change to facilitate ligand binding. The conformation of the ligand, however, is generally presumed to have one primary binding mode, shifting the protein conformational ensemble from one state to another. We report solution NMR studies that reveal peroxisome proliferator-activated receptor γ (PPARγ) modulators can sample multiple binding modes manifesting in multiple receptor conformations in slow conformational exchange. Our NMR, hydrogen/deuterium exchange and docking studies reveal that ligand-induced receptor stabilization and binding mode occupancy correlate with the graded agonist response of the ligand. Our results suggest that ligand and receptor dynamics affect the graded transcriptional output of PPARγ modulators.

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The Secreted Enzyme PM20D1 Regulates Lipidated Amino Acid Uncouplers of Mitochondria

Long

Svensson

Bateman

et al. 2016

Cell

194

218

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SUMMARY Brown and beige adipocytes are specialized cells that express UCP1 and dissipate chemical energy as heat. These cells likely possess alternative UCP1-independent thermogenic mechanisms. Here we identify a secreted enzyme, peptidase M20 domain containing 1 (PM20D1), that is enriched in UCP1+ versus UCP1- adipocytes. We demonstrate that PM20D1 is a bidirectional enzyme in vitro, catalyzing both the condensation of fatty acids and amino acids to generate N-acyl amino acids and also the reverse hydrolytic reaction. N-acyl amino acids directly bind mitochondria and function as endogenous uncouplers of UCP1-independent respiration. Mice with increased circulating PM20D1 have augmented respiration and increased N-acyl amino acids in blood. Lastly, administration of N-acyl amino acids to mice improves glucose homeostasis and increases energy expenditure. These data identify an enzymatic node and a family of metabolites that regulate energy homeostasis; this pathway might be useful for treating obesity and associated disorders.

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Identification of SR2211: A Potent Synthetic RORγ-Selective Modulator

et al. 2012

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Nuclear receptors (NRs) are ligand-regulated transcription factors that display canonical domain structure with highly conserved DNA-binding and ligand-binding domains. The identification of the endogenous ligands for several receptors remains elusive or is controversial, thus these receptors are classified as orphans. One such orphan receptor is the retinoic acid receptor-related orphan receptor γ (RORγ). An isoform of RORγ, RORγt, has been shown to be essential for the expression of Interleukin 17 (IL-17) and the differentiation of Th17 cells. Th17 cells have been implicated in the pathology of several autoimmune diseases, including multiple sclerosis (MS) and rheumatoid arthritis (RA). Genetic ablation of RORγ alone or in combination with RORα in mice led to impaired Th17 differentiation and protected the mice from development of experimental autoimmune encephalomyelitis (EAE), a mouse model of MS. Here we describe SR2211, a selective RORγ modulator which potently inhibits production of IL-17 in cells.

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The Therapeutic Potential of Nuclear Receptor Modulators for Treatment of Metabolic Disorders: PPARγ, RORs, and Rev-erbs

et al. 2014

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Nuclear receptors (NRs) play central roles in metabolic syndrome, making them attractive drug targets despite the challenge of achieving functional selectivity. For instance, members of the thiazolidinedione class of insulin sensitizers offer robust efficacy but have been limited due to adverse effects linked to activation of genes not involved in insulin sensitization. Studies reviewed here provide strategies for targeting subsets of PPARγ target genes, enabling development of next-generation modulators with improved therapeutic index. Additionally, emerging evidence suggests that targeting the NRs ROR and Rev-erb holds promise for treating metabolic syndrome based on their involvement in circadian rhythm and metabolism.

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Pharmacologic Repression of Retinoic Acid Receptor–Related Orphan Nuclear Receptor γ Is Therapeutic in the Collagen‐Induced Arthritis Experimental Model

Chang

Lyda

Kamenecka

et al. 2014

Arthritis & Rheumatology

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Objective The nuclear receptor RORγ (RAR-related orphan receptor gamma; T cell specific isoform is RORγt) is a key regulator of TH17 cell differentiation controlling the production of the inflammatory cytokine IL17. Further it has been shown that LPS stimulation of monocytes leads to induction of RORγ. Previously we have shown that the potent and selective inverse agonist of RORγ, SR2211 was effective at suppressing IL17 production in EL4 cells. Further we demonstrate here that SR2211 treatment blocks proinflammatory cytokine expression in LPS stimulated RAW264.7 cells. Based on these findings SR2211 was administered to collagen-induced arthritis (CIA) mice to evaluate the ability of the compound to reduce joint inflammation. Methods Collagen was injected into the tail of DBA mice followed by a second boost inoculation 21 days later. Three days prior to the boost inoculation, SR2211 was administered into these mice twice daily for 15 days. Thymus, spleen and lymph node (DLN) were harvested and TH17 cell differentiation and DLN stimulation were performed. Results Treatment of TH17 cells with SR2211 suppressed the expression and production of inflammatory cytokines. Likewise, SR2211 reduced inflammatory cytokine production in LPS stimulated RAW264.7 cells. CIA mice administered SR2211 twice daily for 15 days exhibited statistically significant reduction in joint inflammation as compared to mice receiving only vehicle. Interestingly, systemic TH1 cell activation was detected in SR2211 treated CIA mice as indicated by an increase in IFNγ. Conclusions These findings support targeting RORγ to therapeutically repress inflammatory T cell function and macrophage activation in rheumatoid arthritis. Compounds such as SR2211 have potential utility for the treatment of inflammatory disease.

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Antiproliferation Activity of a Small Molecule Repressor of Liver Receptor Homolog 1

et al. 2014

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The orphan nuclear receptor liver receptor homolog 1 (LRH-1; NR5A2) is a potent regulator of cholesterol metabolism and bile acid homeostasis. Recently, LRH-1 has been shown to play an important role in intestinal inflammation and in the progression of estrogen receptor positive and negative breast cancers and pancreatic cancer. Structural studies have revealed that LRH-1 can bind phospholipids and the dietary phospholipid dilauroylphosphatidylcholine activates LRH-1 activity in rodents. Here we characterize the activity of a novel synthetic nonphospholipid small molecule repressor of LRH-1, SR1848 (6-[4-(3-chlorophenyl) piperazin-1-yl]-3-cyclohexyl-1H-pyrimidine-2,4-dione). In cotransfection studies, SR1848 reduced LRH-1-dependent expression of a reporter gene and in cells that endogenously express LRH-1 dose dependently reduced the expression of cyclin-D1 and -E1, resulting in inhibition of cell proliferation. The cellular effects of SR1848 treatment are recapitulated after transfection of cells with small-interfering RNA targeting LRH-1. Immunocytochemistry analysis shows that SR1848 induces rapid translocation of nuclear LRH-1 to the cytoplasm. Combined, these results suggest that SR1848 is a functional repressor of LRH-1 that impacts expression of genes involved in proliferation in LRH-1-expressing cancers. Thus, SR1848 represents a novel chemical scaffold for the development of therapies targeting malignancies driven by LRH-1.

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HDX reveals the conformational dynamics of DNA sequence specific VDR co-activator interactions

et al. 2017

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The vitamin D receptor/retinoid X receptor-α heterodimer (VDRRXRα) regulates bone mineralization via transcriptional control of osteocalcin (BGLAP) gene and is the receptor for 1α,25-dihydroxyvitamin D3 (1,25D3). However, supra-physiological levels of 1,25D3 activates the calcium-regulating gene TRPV6 leading to hypercalcemia. An approach to attenuate this adverse effect is to develop selective VDR modulators (VDRMs) that differentially activate BGLAP but not TRPV6. Here we present structural insight for the action of a VDRM compared with agonists by employing hydrogen/deuterium exchange. Agonist binding directs crosstalk between co-receptors upon DNA binding, stabilizing the activation function 2 (AF2) surfaces of both receptors driving steroid receptor co-activator-1 (SRC1) interaction. In contrast, AF2 of VDR within VDRM:BGLAP bound heterodimer is more vulnerable for large stabilization upon SRC1 interaction compared with VDRM:TRPV6 bound heterodimer. These results reveal that the combination of ligand structure and DNA sequence tailor the transcriptional activity of VDR toward specific target genes.

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Synthetic RORγt Agonists Enhance Protective Immunity

et al. 2016

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The T cell specific RORγ isoform RORγt has been shown to be the key lineage-defining transcription factor to initiate the differentiation program of TH17 and Tc17 cells, cells that have demonstrated anti-tumor efficacy. RORγt controls gene networks that enhance immunity including increased IL17 production and decreased immune suppression. Both synthetic and putative endogenous agonists of RORγt have been shown to increase the basal activity of RORγt enhancing TH17 cell proliferation. Here we show that activation of RORγt using synthetic agonists drives proliferation of TH17 cells while decreasing levels of the immune checkpoint protein PD-1, a mechanism that should enhance anti-tumor immunity while blunting tumor associated adaptive immune resistance. Interestingly, putative endogenous agonists drive proliferation of TH17 cells but do not repress PD-1. These findings suggest that synthetic agonists of RORγt should activate TC17/TH17 cells (with concomitant reduction in the Tregs population), repress PD-1, and produce IL17 in situ (a factor associated with good prognosis in cancer). Enhanced immunity and blockage of immune checkpoints has transformed cancer treatment, thus such a molecule would provide a unique approach for the treatment of cancer.

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Mi Ra Chang

Ligand and Receptor Dynamics Contribute to the Mechanism of Graded PPARγ Agonism

The Secreted Enzyme PM20D1 Regulates Lipidated Amino Acid Uncouplers of Mitochondria

Identification of SR2211: A Potent Synthetic RORγ-Selective Modulator

The Therapeutic Potential of Nuclear Receptor Modulators for Treatment of Metabolic Disorders: PPARγ, RORs, and Rev-erbs

Pharmacologic Repression of Retinoic Acid Receptor–Related Orphan Nuclear Receptor γ Is Therapeutic in the Collagen‐Induced Arthritis Experimental Model

Antiproliferation Activity of a Small Molecule Repressor of Liver Receptor Homolog 1

HDX reveals the conformational dynamics of DNA sequence specific VDR co-activator interactions

Synthetic RORγt Agonists Enhance Protective Immunity

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