The Emerging Role of Epigenetics in the Regulation of Female Puberty.

A. Lomniczi, S. Ojeda
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引用次数: 48

Abstract

In recent years the pace of discovering the molecular and genetic underpinnings of the pubertal process has accelerated considerably. Genes required for human puberty to occur have been identified and evidence has been provided suggesting that the initiation of puberty requires coordinated changes in the output of a multiplicity of genes organized into functional networks. Recent evidence suggests that a dual mechanism of epigenetic regulation affecting the transcriptional activity of neurons involved in stimulating gonadotropin-releasing hormone release plays a fundamental role in the timing of puberty. The Polycomb group (PcG) of transcriptional silencers appears to be a major component of the repressive arm of this mechanism. PcG proteins prevent the premature initiation of female puberty by silencing the Kiss1 gene in kisspeptin neurons of the arcuate nucleus (ARC) of the hypothalamus. Because the abundance of histone marks either catalyzed by--or associated with--the Trithorax group (TrxG) of transcriptional activators increases at the time when PcG control subsides, it appears that the TrxG complex is the counteracting partner of PcG-mediated gene silencing. In this chapter, we discuss the concept that a switch from epigenetic repression to activation within ARC kisspeptin neurons is a core mechanism underlying the initiation of female puberty.
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表观遗传学在女性青春期调节中的新作用。
近年来,发现青春期过程的分子和遗传基础的步伐大大加快了。人类青春期发生所需的基因已经被确定,并且提供的证据表明,青春期的开始需要组织成功能网络的多种基因输出的协调变化。最近的证据表明,影响刺激促性腺激素释放激素释放的神经元转录活性的表观遗传调控的双重机制在青春期的时间中起着重要作用。转录沉默子的Polycomb组(PcG)似乎是该机制抑制臂的主要组成部分。PcG蛋白通过沉默下丘脑弓状核(ARC) kisspeptin神经元中的Kiss1基因来防止女性过早进入青春期。由于转录激活因子Trithorax组(TrxG)催化或与之相关的组蛋白标记的丰度在PcG控制减弱时增加,因此TrxG复合物似乎是PcG介导的基因沉默的抵消伙伴。在本章中,我们讨论了ARC kisspeptin神经元从表观遗传抑制到激活的转换是女性青春期开始的核心机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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