Specific inhibition of the rat ligand-gated ion channel P2X3 function via methoxyethoxy-modified phosphorothioated antisense oligonucleotides.

Gabriele Dorn, Samir Abdel'al, F. Natt, J. Weiler, Jonathan Hall, I. Meigel, J. Mosbacher, W. Wishart
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引用次数: 23

Abstract

P2X3 is one receptor of a family of seven ligand-gated ion channels responding to purines. Increasing evidence indicates its involvement in neuronal signaling and in pain. However, there is currently no selective inhibitor known for this subtype. In order to obtain such a specific inhibitor, a variety of antisense oligonucleotides (ASO) against rat P2X3 was tested, and dose-dependent, sequence-specific downregulation of the rat P2X3 receptor (expressed in a Chinese hamster ovary cell line [CHO-K1]) on the mRNA, protein, and functional levels was observed. Using real-time quantitative PCR, a dose-dependent downregulation of P2X3 mRNA by ASO, as compared with untreated and mismatch controls, was demonstrated. Subsequently, downregulation by the two most potent ASO was confirmed at the protein level by Western blot. Sequence specificity was shown by titration of mismatches to the original selected oligonucleotide, and this correlated with progressive loss of P2X3 inhibition. The functional response of the P2X3 receptor was examined using whole-cell voltage clamping. Upon application of 10 microM of a nonspecific agonist, alpha,beta-methylene-ATP (alphabeta meATP), pretreatment with increasing amounts of the most active ASO 5037 correlated with a decrease in depolarization. The ability to specifically downregulate the P2X3 receptor by ASO treatment will allow investigation of the biologic role of this receptor in neuronal tissues and eventually in in vivo models of chronic pain.
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甲氧基乙氧基修饰的磷酸化反义寡核苷酸特异性抑制大鼠配体门控离子通道P2X3功能。
P2X3是一个家族的七个配体门控离子通道响应嘌呤受体之一。越来越多的证据表明它与神经元信号传导和疼痛有关。然而,目前还没有针对该亚型的选择性抑制剂。为了获得这种特异性抑制剂,我们检测了多种针对大鼠P2X3的反义寡核苷酸(ASO),并观察了大鼠P2X3受体(在中国仓鼠卵巢细胞系[CHO-K1]中表达)在mRNA、蛋白和功能水平上的剂量依赖性、序列特异性下调。通过实时定量PCR,与未处理和错配对照相比,ASO对P2X3 mRNA的剂量依赖性下调得到证实。随后,Western blot证实两种最有效的ASO在蛋白水平下调。序列特异性通过与最初选择的寡核苷酸的不匹配的滴定显示,这与P2X3抑制的逐渐丧失相关。采用全细胞电压箝位法检测P2X3受体的功能反应。在应用10微米的非特异性激动剂α, β -亚甲基atp (α -肉atp)时,增加最活跃的ASO 5037的量的预处理与去极化的减少相关。通过ASO治疗特异性下调P2X3受体的能力将有助于研究该受体在神经元组织中的生物学作用,并最终在慢性疼痛的体内模型中发挥作用。
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