The Structural Basis of Gas-Responsive Transcription by the Human Nuclear Hormone Receptor REV-ERBβ

Pardee, Keith; Xu, Xiaohui; Reinking, Jeff; Schuetz, A.; Dong, Aiping; Liu, Suya; Zhang, Rongguang; Tiefenbach, Jens; Lajoie, Gilles; Plotnikov, A.N.; Botchkarev, Alexey; Krause, Henry M.; Edwards, A.M.

doi:10.1371/journal.pbio.1000043

Cited by 127 publications

(212 citation statements)

References 108 publications

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“…Heme binds directly to the REV-ERB ligand-binding domain (LBD) and regulates the ability of REVERBs to recruit NR corepressors such as NCoR to target gene promoters and repress transcription of downstream genes (4,10). A crystal structure of heme bound within the ligand-binding pocket of REV-ERB␤ has also been described confirming these biological observations (11). The apparent constitutive repressor effect previously noted for the REV-ERBs is most likely due to the fact that all cells have some level of intracellular heme present, thus providing the ligand-dependent repression activity of these receptors.…”

Section: Rev-erb␣ and Rev-erb␤ Are Members Of The Nuclear Receptor (Nsupporting

confidence: 55%

Structure of REV-ERBβ Ligand-binding Domain Bound to a Porphyrin Antagonist

Matta‐Camacho

Banerjee

Hughes

et al. 2014

Journal of Biological Chemistry

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Background: REV-ERB activity is regulated by the endogenous porphyrin agonist, heme. Results: REV-ERB binds other porphyrin ligands, including CoPP and ZnPP, which function as REV-ERB antagonists. Conclusion: Differential regulation of REV-ERBs by porphyrins with different metal centers indicates that REV-ERB function is sensitive to the metal center. Significance: Antagonist porphyrin ligands may be useful chemical tools for probing the function of REV-ERBs.

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Section: Rev-erb␣ and Rev-erb␤ Are Members Of The Nuclear Receptor (Nsupporting

confidence: 55%

Structure of REV-ERBβ Ligand-binding Domain Bound to a Porphyrin Antagonist

Matta‐Camacho

Banerjee

Hughes

et al. 2014

Journal of Biological Chemistry

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“…For example, it has been shown that Rev-erbα's nuclear repressor activity depends on the oxidation state of its heme moiety and the ability of nitric oxide (NO) to bind heme 16 in reducing conditions. Since NO is a neurotransmitter involved in long term potentiation 28 we speculate that a similar mechanism might occur in synapses: by binding to Rev-erbα heme, NO might regulate the transcriptional repressor activity of Rev-erbα in target neurons to influence the expression of protein complexes in the dendritic spines and long-term synaptic plasticity.…”

Section: Discussionmentioning

confidence: 98%

A circadian clock in hippocampus is regulated by interaction between oligophrenin-1 and Rev-erbα

et al. 2011

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“…E75 binds to heme, which responds to gases NO and CO (7)(8)(9)(10)(11)(12). The E75 orthologs in mammals are Rev-erb ␣ (NR1D1) and Rev-erb ␤ (NR1D2), and NR1D2 binds to heme, responds to NO, and regulates circadian rhythm (13)(14)(15).…”

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confidence: 99%

20-Hydroxyecdysone (20E) Primary Response Gene E75 Isoforms Mediate Steroidogenesis Autoregulation and Regulate Developmental Timing in Bombyx

Tian

Guo

et al. 2016

Journal of Biological Chemistry

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The temporal control mechanisms that precisely control animal development remain largely elusive. The timing of major developmental transitions in insects, including molting and metamorphosis, is coordinated by the steroid hormone 20-hydroxyecdysone (20E). 20E involves feedback loops to maintain pulses of ecdysteroid biosynthesis leading to its upsurge, whereas the underpinning molecular mechanisms are not well understood. Using the silkworm Bombyx mori as a model, we demonstrated that E75, the 20E primary response gene, mediates a regulatory loop between ecdysteroid biosynthesis and 20E signaling. E75 isoforms A and C directly bind to retinoic acid receptor-related response elements in Halloween gene promoter regions to induce gene expression thus promoting ecdysteroid biosynthesis and developmental transition, whereas isoform B antagonizes the transcriptional activity of isoform A/C through physical interaction. As the expression of E75 isoforms is differentially induced by 20E, the E75-mediated regulatory loop represents a fine autoregulation of steroidogenesis, which contributes to the precise control of developmental timing.Animals undergo developmental transitions from the embryo to juvenile to adulthood, and these processes are determined by steroid hormones and their corresponding nuclear receptors (NRs).2 In insects, 20-hydroxyecdysone (20E; ecdysone is the immediate precursor of 20E; 20E and ecdysone are the main ecdysteroids) is the actual steroid hormone. The ecdysone receptor (EcR) and its partner molecule, Ultraspiracle (USP), form the functional NR complex of 20E. In conjunction with EcR-USP, 20E activates a small set of early response genes encoding several transcription factors that further activate a large set of downstream late response genes. Pulses of 20E signals initiate major developmental transitions in insects, including egg hatching, larval-larval molting, and larval-pupal-adult metamorphosis (1, 2). NRs form a large and conserved superfamily of ligand-activated transcription factors that are essential for growth, development, reproduction, homeostasis, and metabolism. NRs are defined by the presence of a highly conserved DNA binding domain (DBD) and a less conserved ligand binding domain (3, 4). There are 18 -19 NRs in insects, including the fruit fly, Drosophila melanogaster, and the silkworm, Bombyx mori (3,5,6). Apart from the EcR, ligand was only identified for another insect NR, ecdysone-induced protein 75B (E75). E75 is a crucial 20E response gene that affects ecdysteroid titer. E75 binds to heme, which responds to gases . The E75 orthologs in mammals are Rev-erb ␣ (NR1D1) and Rev-erb ␤ (NR1D2), and NR1D2 binds to heme, responds to NO, and regulates circadian rhythm (13-15).In Drosophila, the E75 locus encodes four E75 mRNA isoforms, E75A, E75B, E75C, and E75D, which are generated by differential promoter usage and alternative splicing of 5Ј exons. The DBD of E75A/C possesses two C4 zinc fingers; E75B is incomplete and contains only one zinc finger, whereas E75D lacks a DBD. 20E-...

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The Structural Basis of Gas-Responsive Transcription by the Human Nuclear Hormone Receptor REV-ERBβ

Cited by 127 publications

References 108 publications

Structure of REV-ERBβ Ligand-binding Domain Bound to a Porphyrin Antagonist

Structure of REV-ERBβ Ligand-binding Domain Bound to a Porphyrin Antagonist

A circadian clock in hippocampus is regulated by interaction between oligophrenin-1 and Rev-erbα

20-Hydroxyecdysone (20E) Primary Response Gene E75 Isoforms Mediate Steroidogenesis Autoregulation and Regulate Developmental Timing in Bombyx

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