呼吸性反义哮喘治疗药物的发现与发展。

A. Sandrasagra, S. Leonard, Lei Tang, K. Teng, Yukui Li, H. Ball, J. Mannion, J. Nyce
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引用次数: 32

摘要

可呼吸反义寡核苷酸(RASONs)代表了一类新的呼吸治疗分子,具有专门解决人类基因组计划成功带来的挑战的潜力,即需要从30,000-40,000个人类基因中快速识别关键的肺部疾病相关药物靶标,并发现和开发特异性攻击这些靶标的药物。我们已经证明EPI-2010,一种靶向腺苷A1受体(一种g蛋白偶联受体,与哮喘的三个主要决定因素的调节有关)的RASON,可以作为气溶胶制剂直接递送到目标疾病组织。吸入EPI-2010的体内疗效、吸收、分布、代谢和排泄(ADME)以及采用人类哮喘动物模型的安全性研究表明,RASON方法能够将有效、安全、长效剂量的硫代寡核苷酸特异性地递送到呼吸道。此外,这些数据表明,RASONs确实有潜力解决后基因组时代的呼吸系统药物发现瓶颈,即能够快速验证疾病靶点并针对这些已验证的靶点开发肺部疾病治疗方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Discovery and development of respirable antisense therapeutics for asthma.
Respirable antisense oligonucleotides (RASONs) represent a novel class of respiratory therapeutic molecules with the potential to specifically address the challenges posed by the successes of the Human Genome Program, namely, the need to rapidly identify the critical pulmonary disease-relevant drugable targets from the vast pool of 30,000-40,000 human genes and to discover and develop drugs that specifically attack these targets. We have shown that EPI-2010, a RASON targeting the adenosine A1 receptor, a G-protein coupled receptor that has been implicated in the regulation of three major determinants of asthma, can be delivered directly to the target disease tissue as an aerosol formulation. In vivo efficacy, absorption, distribution, metabolism, and excretion (ADME), and safety studies of inhaled EPI-2010 employing animal models of human asthma suggest that the RASON approach enables the specific delivery of efficacious, safe, and long-acting doses of phosphorothioate oligonucleotides to the respiratory tract. Moreover, these data indicate that RASONs truly have the potential to address the respiratory drug discovery bottleneck of the postgenomic era, that is, the ability to rapidly validate disease targets and develop pulmonary disease therapeutics for these validated targets.
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