Sequence-specific gene cleavage in intact mammalian cells by 125I-labeled triplex-forming oligonucleotides conjugated with nuclear localization signal peptide.

O. Sedelnikova, Valeri N. Karamychev, I. Panyutin, Ronald D. Neumann
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引用次数: 34

Abstract

Triplex-forming oligonucleotides (TFO) are designed to bind sequence specifically to their DNA targets without a significant disturbance of the double helix. They have been proposed to deliver DNA-reactive agents to specific DNA sequences for gene targeting applications. We suggested the use of 125I-labeled TFO for delivery of the energy of radioiodine decay to specific genes. This approach is called antigene radiotherapy. Here we demonstrate the ability of 125I-labeled TFO to produce sequence-specific breaks within a target in the human mdrl gene in cultured cells. TFO and TFO conjugated with a nuclear localization signal peptide (NLS) were delivered into cells using cationic liposomes. This was done either alone or in the presence of an excess of a "ballast" oligonucleotide with an unrelated sequence. In all cases, nuclear localization of TFO and survival of the cells after treatment has been confirmed. Breaks in the gene target were analyzed by restriction enzyme digestion of the DNA recovered from the TFO-treated cells followed by Southern hybridization with DNA probes flanking the target sequence. We have found that TFO/NLS conjugates cleave the target in a concentration-dependent manner regardless of the presence of the "ballast" oligonucleotide. In contrast, TFO without NLS cleaved the target only in the presence of an excess of the "ballast." We hypothesize that TFO and TFO/NLS are delivered into the nucleus by different pathways. These results provide a new insight into the mechanism of intracellular transport of oligonucleotides and open new avenues for improvement of the efficacy of antigene therapies.
用125i标记的与核定位信号肽结合的三聚体寡核苷酸在完整哺乳动物细胞中进行序列特异性基因切割。
三聚体形成的寡核苷酸(TFO)被设计成在没有明显的双螺旋干扰的情况下特异性地将序列结合到它们的DNA目标上。它们被提议将DNA反应剂传递到特定的DNA序列,用于基因靶向应用。我们建议使用125i标记的TFO将放射性碘衰变的能量传递到特定的基因。这种方法被称为抗原放疗。在这里,我们证明了125i标记的TFO在培养细胞中人类模型基因靶标内产生序列特异性断裂的能力。通过阳离子脂质体将TFO和与核定位信号肽(NLS)结合的TFO送入细胞。这可以单独进行,也可以在具有不相关序列的“压舱物”寡核苷酸过量的情况下进行。所有病例均证实TFO的核定位和治疗后细胞的存活。通过限制性内切酶酶切tfo处理细胞中恢复的DNA,然后与靶序列两侧的DNA探针进行Southern杂交,分析基因靶点的断裂。我们发现TFO/NLS缀合物以浓度依赖的方式切割靶标,而不管“镇流器”寡核苷酸是否存在。相比之下,没有NLS的TFO只在“压舱物”过剩的情况下才会劈裂目标。我们假设TFO和TFO/NLS通过不同的途径进入细胞核。这些结果提供了对寡核苷酸细胞内转运机制的新认识,并为提高抗原治疗的疗效开辟了新的途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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