Department of Cardiac Surgery, University of Heidelberg, Heidelberg, Germany.
Tissue Eng Part A. 2010 Jun;16(6):1867-72. doi: 10.1089/ten.TEA.2009.0537.
When sinus node or atrioventricular (AV) node cells are damaged by disease, the implantation of an artificial cardiac pacemaker becomes necessary. In search for a biological alternative, the objective of this study was to demonstrate whether in vivo adenoviral gene transfer of Adenylate-Cyclase type VI (AC-VI) can create biological pacemaker activity in a porcine AV node block model. Genetic therapy of arrhythmic disorders of the heart has been subject of extensive studies. Cyclic AMP is generated in response to Beta-adrenergic receptor stimulation and also binds to HCN channels, where it regulates spontaneous rhythmic activity in the sinus node.
Adenoviruses encoding either AC-VI or Beta-Galactosidase (lacZ) gene were injected into the lateral wall of the left ventricle of adult pigs via anterolateral thoracotomy at a dose of 10(10) virus particles each. After 12 days, the AV node was ablated and three-dimensional electrophysiological cardiac mapping was performed using the Ensite electro-anatomical system.
After rapid ventricular pacing and administration of Isoprenalin, all animals of the AC-VI group exhibited an escape rhythm originating from the area of the left ventricular injection site at a rate of 100 + 7 beats/min (n = 5), whereas the escape rhythms in the control group (n = 4) originated from the right ventricle. Western blot analysis of the injection sites revealed significantly higher expression of AC-VI in the respective group as compared with the control group.
Our study demonstrates that AC-VI gene transfer has the potential to create a biological pacemaker system.
当窦房结或房室(AV)结细胞因疾病受损时,就需要植入人工心脏起搏器。为了寻找一种生物替代物,本研究的目的是证明在体内腺病毒载体转导腺嘌呤核苷酸环化酶 VI(AC-VI)是否可以在猪 AV 结阻滞模型中产生生物起搏器活性。心律失常的心脏基因治疗一直是广泛研究的课题。环磷酸腺苷是在β肾上腺素能受体刺激下产生的,也与 HCN 通道结合,在那里它调节窦房结的自发性节律活动。
腺病毒载体分别编码 AC-VI 或β-半乳糖苷酶(lacZ)基因,通过前外侧开胸术注入成年猪左心室的外侧壁,剂量为每个病毒粒子 10(10)。12 天后,AV 结被消融,并使用 Ensite 电解剖系统进行三维电生理心脏标测。
在快速心室起搏和异丙肾上腺素给药后,AC-VI 组的所有动物均表现出起源于左心室注射部位的逸搏节律,频率为 100 + 7 次/分钟(n = 5),而对照组(n = 4)的逸搏节律起源于右心室。对注射部位的 Western blot 分析显示,与对照组相比,各自组中 AC-VI 的表达明显更高。
我们的研究表明,AC-VI 基因转移具有产生生物起搏器系统的潜力。
