NRSF regulates the fetal cardiac gene program and maintains normal cardiac structure and function

Kuwahara, Koichiro; Saito, Yoshihiko; Takano, Makoto; Arai, Yuji; Yasuno, Shinji; Nakagawa, Yasuaki; Takahashi, Naoya; Adachi, Yuichiro; Takemura, Genzou; Horie, Minoru; Miyamoto, Yoshihiro; Morisaki, Takayuki; Kuratomi, Shinobu; Noma, Akinori; Fujiwara, Hisayoshi; Yoshimasa, Yasunao; Kinoshita, Hideyuki; Kawakami, Rika; Kishimoto, Ichiro; Nakanishi, Masayoshi; Usami, Satoru; Saito, Yoshitomo; Hara, Masaki; Nakao, Kazuwa

doi:10.1093/emboj/cdg601

Cited by 196 publications

(237 citation statements)

References 73 publications

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“…1A). We confirmed the binding of NRSF to the sequences (10). In addition, when we created transgenic mice carrying cardiac-specific expression of a dominant-negative mutant of NRSF, CACNA1H gene expression was significantly increased in the ventricle of the transgenic mice (DNNRSF Tg).…”

Section: Nrse Regulates Cacna1h Gene Expressionsupporting

confidence: 60%

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Pathophysiological Significance of T-type Ca2+ Channels: Transcriptional Regulation of T-type Ca2+ Channel — Regulation of CACNA1H by Neuron-Restrictive Silencer Factor

Kuwahara¹,

Takano²,

Nakao³

2005

J Pharmacol Sci

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Abstract. Expression of T-type Ca 2+ current in the ventricle varies during development and in cardiac diseases. The alteration in quantity of two isoforms of T-type Ca 2+ channel genes in the heart, CACNA1G and CACNA1H, contributes to the changes of T-type Ca 2+ channel activity. However, the precise mechanisms governing the transcription of T-type Ca 2+ channel genes remain largely unknown. In this review, we briefly describe our recent finding that a transcriptional repressor named neuron-restrictive silencer factor is a potent regulator of T-type Ca 2+ channel gene expression.

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Section: Nrse Regulates Cacna1h Gene Expressionsupporting

confidence: 60%

“…The increased expression of NRSF repressor complex may contribute to the repression of T-type Ca 2+ current during the ventricular maturation. Indeed, T-type Ca 2+ current is activated in DNNRSF Tg ventricular myocytes, whereas it is not detectable in adult non-Tg ventricular myocytes (10).…”

Section: Nrse Regulates Cacna1h Gene Expressionmentioning

confidence: 93%

Pathophysiological Significance of T-type Ca2+ Channels: Transcriptional Regulation of T-type Ca2+ Channel — Regulation of CACNA1H by Neuron-Restrictive Silencer Factor

Kuwahara¹,

Takano²,

Nakao³

2005

J Pharmacol Sci

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“…55 Among nonneuronal tissues, REST was found to be present in normal ventricular myocytes and to repress the expression of multiple fetal cardiac genes. 56 In cardiac dysfunction and arrhythmogenesis, REST expression was inhibited, resulting in the expression of fetal cardiac genes. These results suggest that REST has a role in maintaining normal cardiac structure and function and that its deregulation may cause cardiac dysfunction.…”

Section: Rest In Other Disordersmentioning

confidence: 99%

REST In Good Times and Bad: Roles In Tumor Suppressor and Oncogenic Activities

2006

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Previously published online as a Cell Cycle E-publication: http://www.landesbioscience.com/journals/cc/abstract.php?id=2982 KEY WORDSREST/NRSF, epigenetic regulation, neuronal differentiation, chromatin, tumor-suppressor activity, oncogenic activity, colon cancer, breast cancer, lung cancer, medulloblastoma ABBREVIATIONS dsRNA double-stranded RNA ES embryonic stem HDAC histone deacetylase NRSE neuron-restrictive silencer element NRSF neuron-restrictive silencer factor NSC neural stem/progenitor cell RE-1 repressor element 1 REST RE-1 silencing transcription factor ACKNOWLEDGEMENTS

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“…Previous reports have identified some of these target genes and their function in and outside the nervous system. Thus, it is now documented that REST target genes are involved in the reactivation of the fetal cardiac gene programme in hypertrophied and failing hearts [8], and modulate the vascular plasticity/remodelling of human neointimal hyperplasia [9].…”

Section: Introductionmentioning

confidence: 99%

Functional significance of repressor element 1 silencing transcription factor (REST) target genes in pancreatic beta cells

et al. 2008

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Aims/hypothesis The expression of several neuronal genes in pancreatic beta cells is due to the absence of the transcription factor repressor element 1 (RE-1) silencing transcription factor (REST). The identification of these traits and their functional significance in beta cells has only been partly elucidated. Herein, we investigated the biological consequences of a repression of REST target genes by expressing REST in beta cells. Methods The effect of REST expression on glucose homeostasis, insulin content and release, and beta cell mass was analysed in transgenic mice selectively expressing REST in beta cells. Relevant target genes were identified in INS-1E and primary beta cells expressing REST. Results Transgenic mice featuring a beta cell-targeted expression of REST exhibited glucose intolerance and reduced beta cell mass. In primary beta cells, REST repressed several proteins of the exocytotic machinery, including synaptosomal-associated protein (SNAP) 25, synaptotagmin (SYT) IV, SYT VII, SYT IX and complexin II; it impaired first and second phases of insulin secretion. Using RNA interference in INS-1E cells, we showed that SYT IV and SYT VII were implicated in the control of insulin release.

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NRSF regulates the fetal cardiac gene program and maintains normal cardiac structure and function

Cited by 196 publications

References 73 publications

Pathophysiological Significance of T-type Ca2+ Channels: Transcriptional Regulation of T-type Ca2+ Channel — Regulation of CACNA1H by Neuron-Restrictive Silencer Factor

Pathophysiological Significance of T-type Ca2+ Channels: Transcriptional Regulation of T-type Ca2+ Channel — Regulation of CACNA1H by Neuron-Restrictive Silencer Factor

REST In Good Times and Bad: Roles In Tumor Suppressor and Oncogenic Activities

Functional significance of repressor element 1 silencing transcription factor (REST) target genes in pancreatic beta cells

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