SIR端粒沉默依赖于核膜脂质和调节对溶脂质的敏感性

M. L. Sosa Ponce, Mayrene Horta Remedios, Sarah Moradi-Fard, J. Cobb, V. Zaremberg
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引用次数: 0

摘要

核膜(NE)在维持基因组组织中起着重要的作用。研究了脂质在NE和端粒沉默之间的通讯中的作用,包括脂质组成的变化如何影响基因表达和整体核结构。为此,用不可代谢的溶血磷脂酰胆碱类似物edelfosine处理酵母细胞,已知其在核周内质网积聚。Edelfosine处理导致NE变形和端粒聚集破坏,但没有锚定作用。此外,通过ChIP检测端粒上Sir4的关联降低。RNA-seq分析显示,位于亚端粒(0-10 kb)区域的Sir4依赖基因表达改变,这与Sir4分散一致。转录组学分析显示,edelfosine激活了两条脂质代谢回路,一条是由膜传感转录因子Spt23/Mga2介导的,另一条是由转录抑制因子Opi1介导的。这些组合转录程序的激活导致不饱和脂肪酸水平升高和核脂滴的形成。有趣的是,缺乏Sir蛋白的细胞表现出对不饱和脂肪酸和雪绒花碱的抗性,这种表型与Rap1有关。摘要核包膜(NE)是核组织的重要组成部分。该研究表明,溶脂处理导致的NE脂质组成的变化降低了Sir4与端粒的关联,降低了端粒在NE的聚集,并触发了由膜传感因子调节的脂质特异性转录回路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SIR telomere silencing depends on nuclear envelope lipids and modulates sensitivity to a lysolipid
The nuclear envelope (NE) is important in maintaining genome organization. The role of lipids in the communication between the NE and telomere silencing was investigated, including how changes in lipid composition impact gene expression and overall nuclear architecture. For this purpose, yeast cells were treated with the non-metabolizable lysophosphatidylcholine analog edelfosine, known to accumulate at the perinuclear endoplasmic reticulum. Edelfosine treatment induced NE deformation and disrupted telomere clustering but not anchoring. In addition, the association of Sir4 at telomeres measured by ChIP decreased. RNA-seq analysis showed altered expression of Sir-dependent genes located at sub-telomeric (0-10 kb) regions, which was consistent with Sir4 dispersion. Transcriptomic analysis revealed that two lipid metabolic circuits were activated in response to edelfosine, one mediated by the membrane sensing transcription factors, Spt23/Mga2, and the other by a transcriptional repressor, Opi1. Activation of these combined transcriptional programs resulted in higher levels of unsaturated fatty acids and the formation of nuclear lipid droplets. Interestingly, cells lacking Sir proteins displayed resistance to unsaturated fatty acids and edelfosine, and this phenotype was connected to Rap1. GRAPHICAL ABSTRACT Summary The nuclear envelope (NE) is important for nuclear organization. This study shows that changes in NE lipid composition from lysolipid treatment decreases Sir4 association with telomeres, their clustering at NE, and triggers lipid-specific transcriptional circuits regulated by membrane-sensing factors.
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