Clinical Epigenetic Therapies Disrupt Sex Chromosome Dosage Compensation in Human Female Cells.

Gender and the Genome Pub Date : 2018-01-01 Epub Date: 2018-07-20 DOI:10.1177/2470289718787106
Agnieszka I Laskowski, Danielle A Fanslow, Erica D Smith, Steven T Kosak
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Abstract

Sex chromosome gene dosage compensation is required to ensure equivalent levels of X-linked gene expression between males (46, XY) and females (46, XX). To achieve similar expression, X-chromosome inactivation (XCI) is initiated in female cells during early stages of embryogenesis. Within each cell, either the maternal or paternal X chromosome is selected for whole chromosome transcriptional silencing, which is initiated and maintained by epigenetic and chromatin conformation mechanisms. With the emergence of small-molecule epigenetic inhibitors for the treatment of disease, such as cancer, the epigenetic mechanism underlying XCI may be inadvertently targeted. Here, we test 2 small-molecule epigenetic inhibitors being used clinically, GSK126 (a histone H3 lysine 27 methyltransferase inhibitor) and suberoylanilide hydroxamic acid (a histone deacetylase inhibitor), on their effects of the inactive X (Xi) in healthy human female fibroblasts. The combination of these modifiers, at subcancer therapeutic levels, leads to the inability to detect the repressive H3K27me3 modification characteristic of XCI in the majority of the cells. Importantly, genes positioned near the X-inactivation center (Xic), where inactivation is initiated, exhibit robust expression with treatment of the inhibitors, while genes located near the distal ends of the X chromosome intriguingly exhibit significant downregulation. These results demonstrate that small-molecule epigenetic inhibitors can have profound consequences on XCI in human cells, and they underscore the importance of considering gender when developing and clinically testing small-molecule epigenetic inhibitors, in particular those that target the well-characterized mechanisms of X inactivation.

Abstract Image

临床表观遗传疗法破坏了人类女性细胞的性染色体剂量补偿。
性染色体基因剂量补偿是确保雄性(46,XY)和雌性(46,XX)之间 X 连锁基因表达水平相当的必要条件。为了实现相似的表达,在胚胎发生的早期阶段,雌性细胞中的 X 染色体失活(XCI)就开始了。在每个细胞内,母系或父系 X 染色体被选择进行全染色体转录沉默,这种沉默是通过表观遗传和染色质构象机制启动和维持的。随着用于治疗癌症等疾病的小分子表观遗传抑制剂的出现,XCI 的表观遗传机制可能无意中成为靶标。在这里,我们测试了临床上使用的两种小分子表观遗传抑制剂--GSK126(一种组蛋白 H3 赖氨酸 27 甲基转移酶抑制剂)和次酰苯胺羟肟酸(一种组蛋白去乙酰化酶抑制剂)--对健康女性成纤维细胞中无活性 X(Xi)的影响。在亚癌症治疗水平上结合使用这些修饰剂,会导致大多数细胞无法检测到 XCI 所特有的抑制性 H3K27me3 修饰。重要的是,位于 X 失活中心(Xic)附近的基因在抑制剂的作用下表现出强劲的表达,而位于 X 染色体远端附近的基因则表现出明显的下调,这一点很耐人寻味。这些结果表明,小分子表观遗传抑制剂会对人体细胞中的 XCI 产生深远影响,并强调了在开发和临床试验小分子表观遗传抑制剂时考虑性别因素的重要性,特别是那些针对特征明确的 X 失活机制的抑制剂。
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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