Recruitment of chromatin remodelers by XIST B-repeat region is variably dependent on HNRNPK.

IF 3.1 2区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Human molecular genetics Pub Date : 2024-11-26 DOI:10.1093/hmg/ddae173

Maria Jose Navarro-Cobos, Carolyn J Brown

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Abstract

X-chromosome inactivation is triggered by the long non-coding RNA XIST, whose structure is characterized by tandem repeats that modularly recruit different proteins and chromatin remodelers. Previously, we reported that the addition of the mouse PID region to a transgene with human repeat regions A, F and E (miniXIST; 5.1 kb) enabled binding of HNRNPK and also enabled the induction of silencing and recruitment of H3K27me3, UbH2A and H4K20me1, but only partially. As the 680 bp PID region enabled so many features of inactivation, we hypothesized that augmenting the PID with more mouse or human sequences rich in CCC motifs would allow us to design a short transgene which was as effective as Full XIST. Three new transgenes using the A, F and E human domains as a backbone were tested for ability to induce silencing and heterochromatic mark recruitment. The all human-derived BhB-BhB transgene (4.9 kb) was as good as our previous miniXIST, suggesting that these domains are the human equivalent of the mouse PID region. A PID-PID transgene (5.8 kb) was not statistically different from Full XIST and could be potentially used for chromosome therapy. Adding BhB to PID (BhB-PID, 5.4 kb) had an intermediate efficacy compared to the other two transgenes, suggesting that the most important component for silencing and heterochromatic mark recruitment is the number of CCC motifs, not the species of origin. Finally, we created a heterozygous HNRNPK deletion and observed a disproportionate impact on HNRNPK and UbH2A recruitment to XIST, reflecting complex roles for the PID and HNRNPK in X-chromosome inactivation.

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XIST B-repeat 区域对染色质重塑因子的招募不同程度地依赖于 HNRNPK。

X染色体失活由长非编码RNA XIST触发，其结构的特点是串联重复，可模块化地招募不同的蛋白质和染色质重塑因子。此前，我们曾报道过，将小鼠 PID 区段添加到带有人类重复区段 A、F 和 E 的转基因（miniXIST；5.1 kb）中可使 HNRNPK 结合，也可诱导 H3K27me3、UbH2A 和 H4K20me1 的沉默和招募，但只是部分结合。由于 680 bp 的 PID 区域具有如此多的失活特征，我们假设用更多富含 CCC 基序的小鼠或人类序列来增强 PID，就能设计出与完整 XIST 同样有效的短转基因。我们测试了以 A、F 和 E 人类结构域为骨架的三种新转基因诱导沉默和异染色质标记招募的能力。全人源的 BhB-BhB 转基因（4.9 kb）与我们之前的 miniXIST 一样好，这表明这些结构域相当于小鼠的 PID 区域。PID-PID 转基因（5.8 kb）与 Full XIST 没有统计学差异，有可能用于染色体治疗。在 PID 中添加 BhB（BhB-PID，5.4 kb）与其他两个转基因相比，效果居中，这表明沉默和异染色质标记招募的最重要因素是 CCC 基序的数量，而不是来源的物种。最后，我们创建了一个杂合子 HNRNPK 缺失，观察到其对 HNRNPK 和 UbH2A 招募到 XIST 的影响不成比例，这反映了 PID 和 HNRNPK 在 X 染色体失活中的复杂作用。

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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来源期刊

Human molecular genetics 生物-生化与分子生物学

CiteScore

6.90

自引率

2.90%

发文量

294

审稿时长

2-4 weeks

期刊介绍： Human Molecular Genetics concentrates on full-length research papers covering a wide range of topics in all aspects of human molecular genetics. These include: the molecular basis of human genetic disease developmental genetics cancer genetics neurogenetics chromosome and genome structure and function therapy of genetic disease stem cells in human genetic disease and therapy, including the application of iPS cells genome-wide association studies mouse and other models of human diseases functional genomics computational genomics In addition, the journal also publishes research on other model systems for the analysis of genes, especially when there is an obvious relevance to human genetics.