Competitive binding of triplex-forming oligonucleotides in the two alternate promoters of the PMP22 gene.

M. Hai, S. Bidichandani, M. Hogan, P. Patel
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引用次数: 16

Abstract

Overexpression of the 22-kDa peripheral myelin protein (PMP22) causes the inherited peripheral neuropathy, Charcot-Marie-Tooth disease type 1A (CMT1A). In an attempt to alter PMP22 gene expression as a possible therapeutic strategy for CMT1A, antiparallel triplex-forming oligonucleotides (TFO) were designed to bind to purine-rich target sequences in the two PMP22 gene promoters, P1 and P2. Target region I in P1 and region V in P2 were also shown to specifically bind proteins in mammalian nuclear extracts. Competition for binding of these targets by TFO vs. protein(s) was compared by exposing proteins to their target sequences after triplex formation (passive competition) or by allowing TFO and proteins to simultaneously compete for the same targets (active competition). In both formats, TFO were shown to competitively interfere with the binding of protein to region I. Oligonucleotides directed to region V competed for protein binding by a nontriplex-mediated mechanism, most likely via the formation of higher-order, manganese-destabilizable structures. Given that the activity of the P1 promoter is closely linked to peripheral nerve myelination, TFO identified here could serve as useful reagents in the investigation of promoter function, the role of PMP22 in myelination, and possibly as rationally designed drugs for the therapy of CMT1A. The nontriplex-mediated action of TFO directed at the P2 promoter may have wider implications for the use of such oligonucleotides in vivo.
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PMP22基因两个交替启动子中三聚体形成寡核苷酸的竞争性结合。
22 kda外周髓鞘蛋白(PMP22)过表达可导致遗传性外周神经病变,即1A型Charcot-Marie-Tooth病(CMT1A)。为了改变PMP22基因表达作为治疗CMT1A的可能策略,设计了反平行三联体形成寡核苷酸(TFO)结合两个PMP22基因启动子P1和P2中富含嘌呤的靶序列。P1的靶区I和P2的靶区V也被证明可以特异性结合哺乳动物核提取物中的蛋白质。通过三联体形成后将蛋白质暴露于其靶序列(被动竞争)或允许TFO和蛋白质同时竞争相同的靶标(主动竞争)来比较TFO与蛋白质对这些靶标的结合竞争。在这两种形式中,TFO都被证明竞争性地干扰蛋白质与i区的结合。指向V区的寡核苷酸通过非三联体介导的机制竞争蛋白质的结合,最有可能是通过形成高阶的、锰不稳定的结构。考虑到P1启动子的活性与周围神经髓鞘形成密切相关,本文发现的TFO可以作为研究启动子功能、PMP22在髓鞘形成中的作用的有用试剂,并可能作为合理设计治疗CMT1A的药物。TFO针对P2启动子的非三联体介导作用可能对这种寡核苷酸在体内的使用具有更广泛的意义。
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