Zhang Liang N, Karp Phil, Gerard Christopher J, Pastor Eric, Laux Douglas, Munson Keith, Yan Ziying, Liu Xiaoming, Godwin Simon, Thomas Christie P, Zabner Joseph, Shi Huidong, Caldwell Charles W, Peluso Richard, Carter Barrie, Engelhardt John F
Department of Anatomy and Cell Biology, University of Iowa College of Medicine, Iowa City, IA 52242, USA.
Mol Ther. 2004 Dec;10(6):990-1002. doi: 10.1016/j.ymthe.2004.08.009.
Pharmacologic- and gene-based therapies have historically been developed as two independent therapeutic platforms for cystic fibrosis (CF) lung disease. Inhibition of the dysregulated epithelial Na channel (ENaC) is one pharmacologic approach to enhance airway clearance in CF. We investigated pharmacologic approaches to enhance CFTR gene delivery with recombinant adeno-associated virus (rAAV) and identified compounds that significantly improved viral transduction while simultaneously inhibiting ENaC activity through an unrelated mechanism. Treatment of human CF airway epithelia with proteasome modulating agents (LLnL and doxorubicin) at the time of rAAV2 or rAAV2/5 infection dramatically enhanced CFTR gene delivery and correction of CFTR-mediated short-circuit currents. Surprisingly, these agents also facilitated long-term (15-day) functional inhibition of ENaC currents independent of CFTR vector administration. Inhibition of ENaC activity was predominantly attributed to a doxorubicin-dependent decrease in gamma-ENaC subunit mRNA expression and an increase in gamma-ENaC promoter methylation. This is the first report to describe the identification of compounds with dual therapeutic action that are able to enhance the efficacy of CFTR gene therapy to the airway while simultaneously ameliorating primary aspects of CF disease pathophysiology. The identification of such compounds mark a new area for drug development, not only for CF, but also for other gene therapy disease targets.
从历史上看,基于药物和基因的疗法一直是作为治疗囊性纤维化(CF)肺部疾病的两个独立治疗平台而开发的。抑制失调的上皮钠通道(ENaC)是增强CF气道清除的一种药物学方法。我们研究了用重组腺相关病毒(rAAV)增强CFTR基因递送的药物学方法,并鉴定出能显著改善病毒转导,同时通过一种不相关机制抑制ENaC活性的化合物。在rAAV2或rAAV2/5感染时用蛋白酶体调节剂(LLnL和阿霉素)处理人CF气道上皮细胞,可显著增强CFTR基因递送并纠正CFTR介导的短路电流。令人惊讶的是,这些药物还能在不依赖CFTR载体给药的情况下,促进ENaC电流的长期(15天)功能性抑制。ENaC活性的抑制主要归因于阿霉素依赖性的γ-ENaC亚基mRNA表达降低以及γ-ENaC启动子甲基化增加。这是第一份描述鉴定出具有双重治疗作用的化合物的报告,这些化合物能够增强CFTR基因疗法对气道的疗效,同时改善CF疾病病理生理学的主要方面。此类化合物的鉴定标志着一个药物开发的新领域,不仅适用于CF,也适用于其他基因治疗疾病靶点。
