机械拉伸对血管平滑肌细胞粘附及生长的影响

通过自行研制的“四点弯曲梁”实验装置对血管平滑肌细胞（VSMC）加载培养，并结合显微形态观察和计算机图像处理系统测量细胞铺展投影面积、微管吸吮实验系统检测细胞与表面的粘附力、α-肌动蛋白(actin)免疫组化试验,了解细胞骨架发育和排列取向、流式细胞仪检测细胞动力学以及细胞生长行为等认识VSMC对应变刺激的响应.发现VSMC粘附铺展与实验时间正相关，细胞粘附力、铺展面积、单位面积粘附力4 h后实验组与对照组无显著性差异.VSMC内α-actin发育随加载时间延长呈增加趋势.细胞动力学检测实验组加载24 h后VSMC增殖活动受到抑制.VSMC可能通过调节细胞铺展行为、胞内应力纤维发育等主动机制，实现对机械拉伸的适应性改建.应变刺激有利于体外培养的VSMC维持收缩表型.

The Effects of the Mechanical Stretch on the Adhesion and Growth of Vascular Smooth Muscle Cells in vitro

An in vitro model was built for researching the effects of strain on vascular smooth muscle cells (VSMCs). The cultured VSMCs was stretched by four-support-bending-beam system, then the project area of cells was measured by computer-image-processing, the adhesion force was measured by micropipette-aspirating system, the α-actin of VSMCs was distinguished by immunocytochemistry and the dynamic of VSMCs was determined by FCM. The results show that: (1) The adhesion force of VSMCs is positively related to time. The adhesion force of unit area is indistinct after stretched for four hour. (2) The amount of α-actin increases with stretching time. (3) The proliferation of VSMCs is a little inhibited by stretched 24 h. These results suggest that the VSMCs in vitro could adjust their behavious to adapt the tension.