摘要
Objective: Angiotensin Ⅱ is a growth-promoting factor for vascular smooth muscle cells in culture andin the intact animal. The biological effects of angiotensin Ⅱ are manifested only by binding to specific receptors oncell membranes. In the study, we observed that the effect of rat antisense AT1B gene transfer mediated by adenoviral vector-on neointimal proliferation following rat carotid injury. Methods: Antisense AT1B gene was transductedinto the carotid by adenoviral vector after carotid bal1oon injury and the restenosis model was established in SD rat.We measured neointima/media area ratio in local artery at day 21 after gene transfer. Results: Rat antisense AT1Bgene was successfully transducted into local carotid after the carotid balloon injury. Neointima/media area ratiowas significantly reduced (47 %, P<0. 01) at day 21 after gene transfer compared with the control group. Conclusion: The results suggest it is possible that antisense AT1B gene transfer as a potential therapeutic approach prevent neointimal hyperplasia.
Objective: Angiotensin Ⅱ is a growth-promoting factor for vascular smooth muscle cells in culture andin the intact animal. The biological effects of angiotensin Ⅱ are manifested only by binding to specific receptors oncell membranes. In the study, we observed that the effect of rat antisense AT1B gene transfer mediated by adenoviral vector-on neointimal proliferation following rat carotid injury. Methods: Antisense AT1B gene was transductedinto the carotid by adenoviral vector after carotid bal1oon injury and the restenosis model was established in SD rat.We measured neointima/media area ratio in local artery at day 21 after gene transfer. Results: Rat antisense AT1Bgene was successfully transducted into local carotid after the carotid balloon injury. Neointima/media area ratiowas significantly reduced (47 %, P<0. 01) at day 21 after gene transfer compared with the control group. Conclusion: The results suggest it is possible that antisense AT1B gene transfer as a potential therapeutic approach prevent neointimal hyperplasia.
