Amr Abdelgany, M Khabir Uddin, Matthew Wood, Kazunari Taira, David Beeson
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引用次数: 0
摘要
DNAzymes是一种催化DNA,它在沃森-克里克基础上通过互补序列臂与靶RNA结合,并在特定位点切割RNA。潜在的治疗应用需要DNAzymes能够有效地切割它们的靶标。在这里,我们研究了影响DNAzyme切割肌肉乙酰胆碱受体(AChR) α亚基的功效的因素。10-23个DNAzymes在Y-R核苷酸基序上切割,其中R为A或G, Y为U或c。在模拟生理条件下,针对全编码长度cRNA不同区域的一系列位点发现,最有效的切割基序依次为GU >/= AU > GC >> AC。这一顺序与具有相同结合臂但不同切割位点的短合成RNA底物的动力学分析一致。具有较长对称结合臂的DNAzymes比具有较短结合臂的DNAzymes更有效,而具有较长结合臂I的不对称DNAzymes也更有效,这表明臂I在决定裂解活性方面起主导作用。用倒置胸腺嘧啶(iT)或锁定核酸(LNA)修饰一个DNAzyme,结果表明,LNA修饰的DNAzyme可以有效地沉默HEK 293细胞中AChR的表达。我们的数据表明,在细胞应用之前,体外筛选有效的DNAzyme是有用的。
Design of efficient DNAzymes against muscle AChR alpha-subunit cRNA in vitro and in HEK 293 cells.
DNAzymes are catalytic DNA which bind to target RNA by complementary sequence arms on a Watson-Crick basis and cleave RNA at specific sites. Potential therapeutic applications require DNAzymes that can efficiently cleave their target. Here we investigate factors affecting DNAzyme cleavage efficacy against the muscle acetylcholine receptor (AChR) alpha-subunit. The 10-23 DNAzymes cleave at Y-R nucleotide motifs, where R is A or G, and Y is U or C. Targeting a series of sites within different regions of the full-coding length cRNA under simulated physiological conditions found that the most efficient motifs for cleavage were in the hierarchy: GU >/= AU > GC >>> AC. This order is consistent with the kinetic analysis of short synthetic RNA substrates that have the same binding arms but different cleavage sites. DNAzymes with longer symmetric binding arms were more efficient than those with shorter arms, while asymmetric DNAzymes with a longer arm I were also more efficient, suggesting a dominant role for arm I in determining cleavage activity. Modification of one DNAzyme by inverted thymidine (iT) or locked nucleic acids (LNA) showed the LNA-modified DNAzyme gave efficient silencing of AChR expression in HEK 293 cells. Our data demonstrate the usefulness of screening in vitro for an efficient DNAzyme prior to cellular applications.
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