Shimamura Munehisa, Nakagami Hironori, Taniyama Yoshiaki, Morishita Ryuichi
Osaka University, Kanazawa University and Hamamatsu University School of Medicine, United Graduate School of Child Development, Division of Vascular Medicine and Epigenetics, Department of Child Development , Suita , Japan.
Expert Opin Biol Ther. 2014 Aug;14(8):1175-84. doi: 10.1517/14712598.2014.912272. Epub 2014 Apr 28.
Gene therapy has emerged as a novel therapy to promote angiogenesis in patients with critical limb ischemia (CLI) caused by peripheral artery disease. Researchers working in this area have focused on pro-angiogenic factors, such as VEGF, fibroblast growth factor (FGF) and hepatocyte growth factor (HGF). Based on the elaborate studies and favorable results of basic research using naked plasmid DNA (pDNA) encoding these growth factors, some clinical Phase I and Phase II trials have been performed. The results of these studies demonstrate the safety of these approaches and their potential for symptomatic improvement in CLI patients. However, the Phase III clinical trials have so far been limited to HGF gene therapy. Because one pitfall of the Phase III trials has been the limited transgene expression achieved using naked pDNA alone, the development of more efficient gene transfer systems, such as ultrasound microbubbles and the needleless injector, as well as the addition of other genes will make these novel therapies more effective and ease the symptoms of CLI.
This study reviews the previously published basic research and clinical trials that have studied VEGF, FGF and HGF gene therapies for the treatment of CLI. Adjunctive therapies, such as the addition of prostacyclin synthase genes and the development of more efficient gene transfer techniques for pDNA, are also reviewed.
To date, clinical studies have demonstrated the safety of gene therapy in limb ischemia but the effectiveness of this treatment has not been determined. Larger clinical studies, as well as the development of more effective gene therapy, are needed to achieve and confirm beneficial effects.
基因治疗已成为一种新型疗法,用于促进由外周动脉疾病引起的严重肢体缺血(CLI)患者的血管生成。该领域的研究人员一直专注于促血管生成因子,如血管内皮生长因子(VEGF)、成纤维细胞生长因子(FGF)和肝细胞生长因子(HGF)。基于对编码这些生长因子的裸质粒DNA(pDNA)进行的深入基础研究及良好结果,已开展了一些临床I期和II期试验。这些研究结果证明了这些方法的安全性及其改善CLI患者症状的潜力。然而,迄今为止III期临床试验仅限于HGF基因治疗。由于III期试验的一个缺陷是单独使用裸pDNA实现的转基因表达有限,因此开发更有效的基因传递系统,如超声微泡和无针注射器,以及添加其他基因,将使这些新型疗法更有效并缓解CLI症状。
本研究回顾了先前发表的关于研究VEGF、FGF和HGF基因治疗CLI的基础研究和临床试验。还综述了辅助疗法,如添加前列环素合酶基因以及开发更有效的pDNA基因传递技术。
迄今为止,临床研究已证明基因治疗在肢体缺血中的安全性,但尚未确定这种治疗方法的有效性。需要开展更大规模的临床研究以及开发更有效的基因治疗方法,以实现并确认其有益效果。
