Turning Off Estrogen Receptor {szligbeta}-Mediated Transcription Requires Estrogen-Dependent Receptor Proteolysis

Turning Off Estrogen Receptor {szligbeta}-Mediated Transcription Requires Estrogen-Dependent Receptor Proteolysis

Recent studies have shed light on the ligand-dependent transactivation mechanisms of nuclear receptors (NRs). When the ligand dose is reduced, the transcriptional activity of NRs should be downregulated. Here we show that a ubiquitin-proteasome pathway plays a key role in turning off transcription m...

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Veröffentlicht in:Molecular and cellular biology 2006-11, Vol.26 (21), p.7966-7976
Hauptverfasser: Tateishi, Yukiyo, Sonoo, Raku, Sekiya, Yu-ichi, Sunahara, Nanae, Kawano, Miwako, Wayama, Mitsutoshi, Hirota, Ryuichi, Kawabe, Yoh-ichi, Murayama, Akiko, Kato, Shigeaki, Kimura, Keiji, Yanagisawa, Junn
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container_end_page 7976
container_issue 21
container_start_page 7966
container_title Molecular and cellular biology
container_volume 26
creator Tateishi, Yukiyo
Sonoo, Raku
Sekiya, Yu-ichi
Sunahara, Nanae
Kawano, Miwako
Wayama, Mitsutoshi
Hirota, Ryuichi
Kawabe, Yoh-ichi
Murayama, Akiko
Kato, Shigeaki
Kimura, Keiji
Yanagisawa, Junn
description Recent studies have shed light on the ligand-dependent transactivation mechanisms of nuclear receptors (NRs). When the ligand dose is reduced, the transcriptional activity of NRs should be downregulated. Here we show that a ubiquitin-proteasome pathway plays a key role in turning off transcription mediated by estrogen receptor {szligbeta} (ER{szligbeta}). ER{szligbeta} shows estrogen-dependent proteolysis, and its degradation is regulated by two regions in the receptor. The N-terminal 37-amino acid-region is necessary for the recruitment of the ubiquitin ligase, i.e., the carboxyl terminus of HSC70-interacting protein (CHIP), to degrade ER{szligbeta}. In contrast, the C-terminal F domain protects ligand-unbound ER{szligbeta} from proteolysis to abrogate proteasome association. Suppression of CHIP by interfering RNA inhibited this switching off of receptor-mediated transcription when the ligand dose was reduced. Our results suggest that after ligand withdrawal, the active form of the NR is selectively eliminated via ligand-dependent proteolysis to downregulate receptor-mediated transcription.
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title Turning Off Estrogen Receptor {szligbeta}-Mediated Transcription Requires Estrogen-Dependent Receptor Proteolysis
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