Oncogenic lncRNA transgene transcription modulates epigenetic memory at a naïve chromosomal locus.

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Nucleus (Austin, Tex.) Pub Date : 2025-12-01 Epub Date: 2025-07-31 DOI:10.1080/19491034.2025.2534242

Sweta Sikder, Songjoon Baek, Yamini Dalal, Ganesan Arunkumar

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Abstract

Maintaining genome integrity is essential for the proper functioning and development of organisms. An intriguing aspect is that neocentromeres can form at non-centromeric sites. CENP-A, a key epigenetic marker of centromeres, is often mislocalized to ectopic sites in cancers when overexpressed. Its deposition on centromeres relies on transcription of centromeric non-coding RNAs. Subsequently, ectopic CENP-A is frequently found at transcriptionally active and chromosome breakpoint regions. We previously engineered a stable ectopic CENP-A site on a naïve chromosome by overexpressing PCAT2, a non-centromeric oncogenic lncRNA that recruits CENP-A to its transcribing locus. We tracked cells with this transgene to analyze the longevity of ectopic CENP-A. We discovered that this induced epigenetic memory was lost due to suppression by epigenetic silencing mechanisms, restoring CENP-A to previous levels. These findings suggest that cells have mechanisms to prevent neocentromere formation at ectopic sites by suppressing transcription unless selective pressure favors it.

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致癌lncRNA转基因转录调节naïve染色体位点的表观遗传记忆。

维持基因组的完整性对生物体的正常功能和发育至关重要。一个有趣的方面是，新着丝粒可以在非着丝粒的位置形成。CENP-A是着丝粒的关键表观遗传标记，当过度表达时，在癌症中经常错误定位于异位位点。它在着丝粒上的沉积依赖于着丝粒非编码rna的转录。随后，异位的CENP-A经常出现在转录活跃区和染色体断点区。我们之前通过过表达PCAT2在naïve染色体上设计了一个稳定的异位CENP-A位点，PCAT2是一种非着丝粒的致癌lncRNA，可将CENP-A招募到其转录位点。我们追踪了带有这种转基因的细胞，以分析异位CENP-A的寿命。我们发现这种诱导的表观遗传记忆由于表观遗传沉默机制的抑制而丢失，使CENP-A恢复到以前的水平。这些发现表明，除非有选择压力，否则细胞具有通过抑制转录来阻止异位点新着丝粒形成的机制。

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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Nucleus (Austin, Tex.)

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