Targeting a KRAS i-motif forming sequence by unmodified and gamma-modified peptide nucleic acid oligomers

IF 3.2 4区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Biopolymers Pub Date : 2022-12-27 DOI:10.1002/bip.23529
Srijani Sarkar, Gabriela Colón-Roura, Alexander Pearse, Bruce A. Armitage
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引用次数: 2

Abstract

Growing interest in i-motif DNA as a transcriptional regulatory element motivates development of synthetic molecules capable of targeting these structures. In this study, we designed unmodified peptide nucleic acid (PNA) and gamma-modified PNA (γPNA) oligomers complementary to an i-motif forming sequence derived from the promoter of the KRAS oncogene. Biophysical techniques such as circular dichroism (CD) spectroscopy, CD melting, and fluorescence spectroscopy demonstrated the successful invasion of the i-motif by PNA and γPNA. Both PNA and γPNA showed very strong binding to the target sequence with high thermal stability of the resulting heteroduplexes. Interestingly fluorescence and CD experiments indicated formation of an intermolecular i-motif structure via the overhangs of target-probe heteroduplexes formed by PNA/γPNA invasion of the intramolecular i-motif. Targeting promoter i-motif forming sequences with high-affinity oligonucleotide mimics like γPNAs may represent a new approach for inhibiting KRAS transcription, thereby representing a potentially useful anti-cancer strategy.

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通过未修饰和γ修饰的肽核酸低聚物靶向KRAS i-motif形成序列
对i基序DNA作为转录调控元件的兴趣日益增长,促使能够靶向这些结构的合成分子的开发。在这项研究中,我们设计了未修饰的肽核酸(PNA)和γ修饰的PNA(γPNA)寡聚物,与源自KRAS癌基因启动子的i基序形成序列互补。生物物理技术,如圆二色性(CD)光谱、CD熔融和荧光光谱,证明了PNA和γPNA成功地侵入了i-基序。PNA和γPNA都显示出与靶序列的非常强的结合,所产生的异源双链具有高的热稳定性。有趣的是,荧光和CD实验表明,通过PNA/γPNA侵入分子内i基序形成的靶探针异二聚体的外伸,形成了分子间i基序结构。用高亲和力寡核苷酸模拟物(如γPNAs)靶向启动子i基序形成序列可能代表了抑制KRAS转录的一种新方法,从而代表了一种潜在有用的抗癌策略。
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来源期刊
Biopolymers
Biopolymers 生物-生化与分子生物学
CiteScore
5.30
自引率
0.00%
发文量
48
审稿时长
3 months
期刊介绍: Founded in 1963, Biopolymers publishes strictly peer-reviewed papers examining naturally occurring and synthetic biological macromolecules. By including experimental and theoretical studies on the fundamental behaviour as well as applications of biopolymers, the journal serves the interdisciplinary biochemical, biophysical, biomaterials and biomedical research communities.
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