Deng Xiao-li, Wu Xiao-bing, Jiang Jie, Guo Yan-hong, Yan Hua, Shi Bing, Chen Ming, Yang Yang, Wang Ji-chen, Wang Xiao-ying, Qiu Jian-xin, Gao Li, Gao Wei
Department of Cardiology, Peking University Third Hospital, Beijing 100083, China.
Zhonghua Xin Xue Guan Bing Za Zhi. 2005 Aug;33(8):732-7.
Vectors commonly used for therapeutic angiogenesis such as adenovirus and plasmid had their own limitations. Adenovirus-associated virus (AAV) is a relatively new but probably more ideal vector as it is safe and efficient. We will study the efficiency of recombinant AAV-2 mediated vascular endothelial growth factor165 gene transfer in inducing angiogenesis and arteriogenesis, in improving blood flow and myocardium function in a porcine chronic myocardial ischemic model.
Chinese experimental minipigs underwent placement of a left circumflex artery aneroid constrictor. Five weeks later, electrocardiogram, coronary angiography and magnetic resonance imaging were performed to confirm occlusion of LCX or ischemia of myocardium in LCX territory. Coronary blood flow, myocardium perfusion and left ventricular wall function were also evaluated. Then the animals were randomized to treatment with rAAV2-VEGF(165) (1 x 10(12) virus genome) or administration of PBS, both by direct myocardial injection. Three and six months after therapy, the animals were evaluated with regard to expression of VEGF(165) Capillary density and arteriole density of the ischemic myocardium, coronary angiography, myocardial perfusion and left ventricular function were also assessed six months after therapy.
Five weeks after aneroid occluder implantation, all the animals demonstrated complete or nearly complete occlusion of LCX and perfusion deficiency in LCX territory. Three months after therapy, expression of VEGF(165) mRNA and protein were higher in the VEGF than control group. The difference between the two groups diminished after six months. There was significant increase in capillary density (1404.06 +/- 250.48/mm(2) vs 976.88 +/- 344.79/mm(2), P < 0.05) and arteriole density (167.81 +/- 36.29/mm(2) vs 116.56 +/- 34.48/mm(2), P < 0.05) in VEGF group compared with control. Comparison of myocardial perfusion demonstrated marked differences between the two groups with significant improvement in animals treated with rAAV2-VEGF(165). No significant improvement in left ventricular function was seen in either the VEGF or control group.
Transmyocardial delivery of rAAV2-VEGF(165) resulted in VEGF gene expression for at least three months and stimulated angiogenesis and arteriogenesis in porcine model of chronic myocardial ischemia. Myocardial perfusion was also improved after VEGF gene delivery.
常用于治疗性血管生成的载体,如腺病毒和质粒,都有其自身的局限性。腺相关病毒(AAV)是一种相对较新但可能更理想的载体,因为它安全且高效。我们将研究重组AAV-2介导的血管内皮生长因子165基因转移在猪慢性心肌缺血模型中诱导血管生成和动脉生成、改善血流及心肌功能方面的效率。
中国实验小型猪接受左旋支动脉无液压力限制器植入。五周后,进行心电图、冠状动脉造影和磁共振成像,以确认左旋支闭塞或左旋支区域心肌缺血。同时评估冠状动脉血流、心肌灌注和左心室壁功能。然后将动物随机分为接受rAAV2-VEGF(165)(1×10¹²病毒基因组)治疗组或给予PBS组,均通过直接心肌注射。治疗后三个月和六个月,评估动物VEGF(165)的表达情况。治疗后六个月还评估缺血心肌的毛细血管密度和小动脉密度、冠状动脉造影、心肌灌注及左心室功能。
无液压力限制器植入五周后,所有动物均表现出左旋支完全或几乎完全闭塞及左旋支区域灌注不足。治疗后三个月,VEGF组VEGF(165) mRNA和蛋白表达高于对照组。六个月后两组间差异减小。与对照组相比,VEGF组毛细血管密度(1404.06±250.48/mm²对976.88±344.79/mm²,P<0.05)和小动脉密度(167.81±36.29/mm²对116.56±34.48/mm²,P<0.05)显著增加。心肌灌注比较显示两组间有显著差异,rAAV2-VEGF(165)治疗的动物有显著改善。VEGF组和对照组左心室功能均未见明显改善。
经心肌递送rAAV2-VEGF(165)可导致VEGF基因表达至少三个月,并在猪慢性心肌缺血模型中刺激血管生成和动脉生成。VEGF基因递送后心肌灌注也得到改善。
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