Evaluation of Propofol in Inhibiting Proliferation of Cardiac Fibroblasts in Angiotensin II-Induced Mouse

The present study was conducted to investigate the molecular mechanism of propofol in inhibiting the proliferation of mouse cardiac fibroblasts (CFs) induced by angiotensin II (Ag II). The ventricles of SPF mice from Kunming were cultured for the second to third generation of CFs under aseptic condition. On the basis of the different adding conditions, the mice were divided into five groups: (1) control group: no drug were added; (2) Ag II group: 100 nmol/L, Ag II were added; (3) 10 mu mol/L propofol + 100 mnol/L Ag II group; (4) 30 mu mol/L propofol + 100 nmol/L Ag II group; (5) 50 mu mol/L propofol + 100 nmol/L Ag II group. The effects of propofol on the proliferation of CFs induced by Ag II, the expression of CFs ET-1, the activity of NADPII oxidase and the formation of ROS were analyzed. In addition, our study also explored the potential role of Akt-eNOS-nitric oxide pathway regarding the inhibition of proliferation of Ag II induced CFs by propofol. We found that the proliferation of CFs, the secretion of EF-1, the activity of NADPH oxidase and the level of intracellular ROS and fibronectin expression were significantly increased after CFs exposure to Ag II for 24 h. The abovementioned indexes decreased significantly in CFs after treated with propofol for 24 h (10, 30, or 50 mu mol/L) with significant statistical difference (P < 0.05). Akt and eNOS siRNA transfection significantly decreased the levels of Akt and eNOS protein, respectively. Blocking pathway of Akt-eNOS-nitric oxide decreased the inhibitory effect of propofol on Ag II-induced cell proliferation of CFs. Propofol exerts effect in inhibiting ET-1 and fibronectin expression and the formation of ROS induced by Ag II. Moreover, Akt-eNOS-nitric oxide signaling pathway may be involved in the effect of propofol on the proliferation of CFs induced by Ag II.