获得性依托泊苷耐药人类白血病 K562 细胞中拓扑异构酶 IIα 内含子 19 内含子多腺苷化 (IPA) 的规避作用

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Xinyi Wang, Jessika Carvajal-Moreno, Xinyu Zhao, Junan Li, Victor A. Hernandez, Jack C. Yalowich, Terry S. Elton
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引用次数: 0

摘要

DNA拓扑异构酶IIα(TOP2α,170kDa,TOP2α/170)是通过产生瞬时DNA双链断裂实现适当染色体连接障碍的一种重要酶,也是DNA损伤稳定抗癌药物(如依托泊苷)的一个重要靶点。由于获得性耐药性,TOP2α 毒药的治疗效果可能会受到限制。我们以前曾证实,在对依托泊苷耐药的人类白血病 K562 亚系(命名为 K/VP.5)中,TOP2α/170 的水平下降,同时 C 端截短的 TOP2α 异构体(90 kDa,TOP2α/90)的表达增加,它与 TOP2α/170 异源二聚体,通过对依托泊苷活性的显性负效应成为耐药性的决定因素。根据 cDNA 末端的 3′-快速扩增(3′-RACE),我们证实 TOP2α/90 是 TOP2α mRNA 的翻译产物,其中利用了内含子 19(I19)中的隐性多腺苷酸化位点(PAS)。我们假设,通过阻断或突变 I19 PAS,可以减弱由此产生的内含子多腺苷酸化(IPA),从而避免获得性耐药性。研究人员使用反义吗啉寡核苷酸(AMO)杂交/阻断了K/VP.5细胞中TOP2α前mRNA中的PAS,从而降低了K/VP.5细胞中TOP2α/90 mRNA/蛋白质的水平,并部分规避了耐药性。随后,利用CRISPR/Cas9同源定向修复(HDR)技术突变了隐性I19 PAS(AATAAA-->ACCCAA)以防止IPA。基因编辑的克隆表现出TOP2α/170 mRNA/蛋白的增加和TOP2α/90 mRNA/蛋白的减少,并对依托泊苷和其他TOP2α靶向药物的敏感性有所恢复。这些结果表明,在K/VP.5细胞中阻断/突变隐性I19 PAS可降低IPA并恢复对TOP2α靶向药物的敏感性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Circumvention of Topoisomerase IIα Intron 19 Intronic Polyadenylation (IPA) in Acquired Etoposide Resistant Human Leukemia K562 Cells
DNA topoisomerase IIα (TOP2α, 170kDa, TOP2α/170) is an essential enzyme for proper chromosome dysjunction by producing transient DNA double-stranded breaks and is a significant target for DNA damage stabilizing anti-cancer agents such as etoposide. Therapeutic effects of TOP2α poisons can be limited due to acquired drug resistance. We previously demonstrated decreased TOP2α/170 levels in an etoposide-resistant human leukemia K562 subline, designated K/VP.5, accompanied by increased expression of a C-terminal truncated TOP2α isoform (90 kDa, TOP2α/90) which heterodimerized with TOP2α/170 and was a determinant of resistance by exhibiting dominant-negative effects against etoposide activity. Based on 3′-Rapid Amplification of cDNA Ends (3′-RACE), we confirmed TOP2α/90 as the translation product of a TOP2α mRNA in which a cryptic polyadenylation site (PAS) harbored in intron 19 (I19) was utilized. We hypothesized that resultant intronic polyadenylation (IPA) can would be attenuated by blocking or mutating the I19 PAS thereby circumventing acquired drug resistance. An antisense morpholino oligonucleotide (AMO) was used to hybridize/block the PAS in TOP2α pre-mRNA in K/VP.5 cells, resulting in decreased TOP2α/90 mRNA/protein levels in K/VP.5 cells and partially circumventing drug resistance. Subsequently, CRISPR/Cas9 homology-directed repair (HDR) was used to mutate the cryptic I19 PAS (AATAAA-->ACCCAA) to prevent IPA. Gene-edited clones exhibited increased TOP2α/170 and decreased TOP2α/90 mRNA/protein and demonstrated restored sensitivity to etoposide and other TOP2α-targeted drugs. Together, results indicated that blocking/mutating a cryptic I19 PAS in K/VP.5 cells reduced IPA and restored sensitivity to TOP2α-targeting drugs.
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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