转录末端位点附近的 MYC 结合可调控基础基因表达、直读转录和基因内联系

bioRxiv Pub Date : 2024-07-16 DOI:10.1101/2024.07.11.603118

Huabo Wang, Bingwei Ma, Taylor Stevens, Jessica Knapp, Jie Lu, E. Prochownik

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引用次数: 0

摘要

MYC 癌症蛋白调控许多涉及细胞周期、线粒体和核糖体结构与功能等细胞过程的基因。这需要与它的伙伴 MAX 进行异源二聚化，并与特定的启动子和增强子元件结合。在这里，我们发现 MYC 和 MAX 还能在超过六分之一的注释基因的转录终止位点 (TES) 附近结合。这些相互作用具有剂量依赖性，在进化过程中是保守的，能稳定通常寿命较短的 MYC 蛋白，并与 MYC 在其他地方的结合协同或独立于 MYC 在其他地方的结合调控表达。MYC 的 TES 与其他转录因子结合，会改变染色质结构，增加核酸酶的敏感性，并能改变转录通读，尤其是在应对某些压力时。与 MYC 结合的 TES 可直接接触启动子，并可微调基因表达，以应对生理和病理刺激。总之，这些发现支持了以前未被认识到的 MYC 通过 TES 与启动子之间的直接基因内接触调节转录及其读通的作用。

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MYC Binding Near Transcriptional End Sites Regulates Basal Gene Expression, Read-Through Transcription and Intragenic Contacts

The MYC oncoprotein regulates numerous genes involved in cellular processes such as cell cycle and mitochondrial and ribosomal structure and function. This requires heterodimerization with its partner, MAX, and binding to specific promoter and enhancer elements. Here, we show that MYC and MAX also bind near transcriptional end sites (TESs) of over one-sixth of all annotated genes. These interactions are dose-dependent, evolutionarily conserved, stabilize the normally short-lived MYC protein and regulate expression both in concert with and independent of MYC’s binding elsewhere. MYC’s TES binding occurs in association with other transcription factors, alters the chromatin landscape, increases nuclease susceptibility and can alter transcriptional read-through, particularly in response to certain stresses. MYC-bound TESs can directly contact promoters and may fine-tune gene expression in response to both physiologic and pathologic stimuli. Collectively, these findings support a previously unrecognized role for MYC in regulating transcription and its read-through via direct intragenic contacts between TESs and promoters.

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