Effects of 5-Hydroxymethylcytosine Epigenetic Modification on the Stability and Molecular Recognition of VEGF i-Motif and G-Quadruplex Structures.

IF 1.3 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of Nucleic Acids Pub Date : 2018-05-16 eCollection Date: 2018-01-01 DOI:10.1155/2018/9281286
Rhianna K Morgan, Michael M Molnar, Harshul Batra, Bethany Summerford, Randy M Wadkins, Tracy A Brooks
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Abstract

Promoters often contain asymmetric G- and C-rich strands, in which the cytosines are prone to epigenetic modification via methylation (5-mC) and 5-hydroxymethylation (5-hmC). These sequences can also form four-stranded G-quadruplex (G4) or i-motif (iM) secondary structures. Although the requisite sequences for epigenetic modulation and iM/G4 formation are similar and can overlap, they are unlikely to coexist. Despite 5-hmC being an oxidization product of 5-mC, the two modified bases cluster at distinct loci. This study focuses on the intersection of G4/iM formation and 5-hmC modification using the vascular endothelial growth factor (VEGF) gene promoter's CpG sites and examines whether incorporation of 5-hmC into iM/G4 structures had any physicochemical effect on formation, stability, or recognition by nucleolin or the cationic porphyrin, TMPyP4. No marked changes were found in the formation or stability of iM and G4 structures; however, changes in recognition by nucleolin or TMPyP4 occurred with 5-hmC modification wherein protein and compound binding to 5-hmC modified G4s was notably reduced. G4/iM structures in the VEGF promoter are promising therapeutic targets for antiangiogenic therapy, and this work contributes to a comprehensive understanding of their governing principles related to potential transcriptional control and targeting.

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5-Hydroxymethylcytosine 表观遗传修饰对血管内皮生长因子 i-Motif 和 G-四联结构的稳定性和分子识别的影响
启动子通常包含不对称的富含 G 和 C 的链,其中的胞嘧啶容易通过甲基化(5-mC)和 5-羟甲基化(5-hmC)发生表观遗传修饰。这些序列还可以形成四链 G-四叠体(G4)或 i-motif(iM)二级结构。虽然表观遗传调控和 iM/G4 形成所需的序列相似并可能重叠,但它们不太可能共存。尽管 5-hmC 是 5-mC 的氧化产物,但这两种修饰碱基聚集在不同的位点上。本研究以血管内皮生长因子(VEGF)基因启动子的 CpG 位点为研究对象,重点探讨了 G4/iM 形成与 5-hmC 修饰的交叉点,并研究了 5-hmC 加入 iM/G4 结构是否会对形成、稳定性或核仁蛋白或阳离子卟啉 TMPyP4 的识别产生任何物理化学影响。在 iM 和 G4 结构的形成或稳定性方面没有发现明显的变化;但是,在 5-hmC 修饰的情况下,核素或 TMPyP4 的识别发生了变化,蛋白质和化合物与 5-hmC 修饰的 G4 的结合明显减少。血管内皮生长因子启动子中的 G4/iM 结构是很有希望的抗血管生成治疗靶点,这项工作有助于全面了解它们与潜在转录控制和靶向有关的调节原理。
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来源期刊
Journal of Nucleic Acids
Journal of Nucleic Acids BIOCHEMISTRY & MOLECULAR BIOLOGY-
CiteScore
3.10
自引率
21.70%
发文量
5
审稿时长
12 weeks
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