Horvath Keith A, Doukas John, Lu Chia-Yang J, Belkind Noam, Greene Rodney, Pierce Glenn F, Fullerton David A
Division of Cardiothoracic Surgery, Northwestern University Medical School, Chicago, Illinois 60611, USA.
Ann Thorac Surg. 2002 Aug;74(2):481-6; discussion 487. doi: 10.1016/s0003-4975(02)03736-0.
Although it has been shown that gene therapy is capable of inducing neovascularization in ischemic myocardium, the functional significance of such therapeutic angiogenesis remains less certain. The purpose of this study was to investigate whether an experimental link could be made between the ability of a novel fibroblast growth factor 2 (FGF2) gene formulation to promote neovascularization, and its ability to restore myocardial function.
Fibroblast growth factor 2 gene was delivered by means of an adenovirus vector formulated in a collagen-based matrix to provide localized and sustained gene activity. Using a model of chronic myocardial ischemia, animals were randomized to either treatment of the ischemic area by injections of adenovirus vector-FGF2 or no treatment. Left ventricular function was assessed by rest and dobutamine stress echocardiography as well as contrast-enhanced and cine magnetic resonance imaging scans. Studies were repeated 6 weeks after treatment. Arteriogenesis was assessed by quantifying the total arteriolar wall area present in treated areas, using anti-alpha-actin immunohistochemistry and subsequent morphometric analyses.
Echocardiographic results demonstrated a significant restoration of myocardial function in FGF2 gene-treated areas as measured by myocardial wall thickening (0.38 +/- 0.08 cm pretreatment versus 0.76 +/- 0.09 cm posttreatment; p < 0.05). This was demonstrated by comparing the ischemic zones of FGF2 gene-treated versus control-treated animals, as well as by comparing ischemic with nonischemic zones in individual animals This functional improvement was confirmed by cine magnetic resonance imaging, in which 68% (147 of 216) of the treated segments showed improvement in wall motion and there was no change in the untreated segments. Fibroblast growth factor 2 gene treatment also enhanced arteriogenesis within the ischemic zone, as FGF2 gene-treated animals showed a 340% increase in the total arteriolar wall area present versus control-treated animals.
The function of ischemic myocardium can be restored by a novel FGF2 gene delivery method using a gene-activated matrix. The increased arteriogenesis as a result of FGF2 gene therapy leads to restoration of this myocardial function.
尽管已有研究表明基因治疗能够在缺血心肌中诱导新生血管形成,但其对治疗性血管生成的功能意义仍不太明确。本研究的目的是探讨一种新型成纤维细胞生长因子2(FGF2)基因制剂促进新生血管形成的能力与其恢复心肌功能的能力之间是否存在实验性联系。
通过基于胶原蛋白的基质配制的腺病毒载体递送成纤维细胞生长因子2基因,以提供局部和持续的基因活性。使用慢性心肌缺血模型,将动物随机分为通过注射腺病毒载体-FGF2治疗缺血区域或不进行治疗。通过静息和多巴酚丁胺负荷超声心动图以及对比增强和电影磁共振成像扫描评估左心室功能。治疗6周后重复进行研究。通过使用抗α-肌动蛋白免疫组织化学和随后的形态计量分析,通过量化治疗区域中存在的总小动脉壁面积来评估动脉生成。
超声心动图结果显示,通过心肌壁增厚测量,FGF2基因治疗区域的心肌功能有显著恢复(治疗前为0.38±0.08 cm,治疗后为0.76±0.09 cm;p<0.05)。通过比较FGF2基因治疗组与对照组动物的缺血区域,以及通过比较个体动物的缺血区域与非缺血区域来证明这一点。电影磁共振成像证实了这种功能改善,其中68%(216个中的147个)治疗节段的壁运动有改善,未治疗节段无变化。FGF2基因治疗还增强了缺血区域内的动脉生成,因为FGF2基因治疗组动物与对照组动物相比,总小动脉壁面积增加了340%。
使用基因激活基质的新型FGF2基因递送方法可以恢复缺血心肌的功能。FGF2基因治疗导致的动脉生成增加导致了这种心肌功能的恢复。
Zotero 插件