Adrenomedullin gene transfection enhances the therapeutic effects of transplantation of bone marrow mesenchymal stem cells on cardiac function and ventricle remodeling in acute myocardial infarction rats

AIM: To investigate adrenomedullin gene transfection enhances the therapeutic effects of homogeneous transplantation of bone marrow mesenchymal stem cells (MSCs) on cardiac function and ventricle remodeling in acute myocardial infarction rats. METHODS: MSCs were isolated and expanded using the preplating method. The infection efficiency of adenovirus vector to MSCs was tested by X-gal staining. Ad-ADM expression in MSCs and its secretion in culture medium were measured by ELISA. The left anterior descending branch of rats was ligated to establish a myocardial infarction model. The MSCs were labeled by DAPI, and were directly implanted into the acute infarct site via focal injection. Four weeks later, cardiac function was evaluated using physiological recorder. Hearts were harvested and sliced to be analyzed by immunohistochemistry (factor Ⅷ and ADM) and the DAPI-labeled cells were identified. Sirius red staining was used to identify interstitial collagen on slides. Analysis of collagen type I and III was performed using a polarized filter on sections stained for collagen with Sirius red, and the ratio of collagen type I and III were detected. RESULTS: With X-gal staining, MSCs were effectively transfected by adenovirus in vitro. The transfection efficiency showed the dose-effect relationship with multiplicities of infection (MOI). When MOI was 150, the infection efficiency was 95.4%. The expression of ADM was traced in culture medium and expressed in the time-dependent manner. A maximum production of ADM was observed at 7 d after infection ［(26.53±1.42) ng/L vs (1.34±0.08) ng/L, P<0.05］, and ADM secretion reduced to normal level at 15 d ［(2.20±1.44) ng/L vs (1.52±0.33) ng/L, P>0.05］. DAPI-labeled MSCs transplantation was found in the hearts of the recipients. Immunohistochemical studies demonstrated that intense immunostaining for ADM was higher in Ad-ADM plus MSCs group, compared to other groups. Compared with control, MSCs transplantation significantly increased capillary density in infarct area (P<0.01). A combination of Ad-ADM trensfection and MSCs transplantation demonstrated a further increase in capillary density compared with Ad-ADM or MSCs alone. MSCs transplantation decreased the ratio of collagen type I and III, obviously improved the left ventricular functions. Furthermore the combination treatment resulted in further decrease in the ratio of collagen type I and III, and significantly improved the left ventricular functions. CONCLUSION: Ad-ADM transfection enhances the angiogenic potency of MSCs transplantation and decreases the ratio of collagen type I and III through increasing ADM expression in infarct area, thus contributes to reverse the ventricular remodeling and improves the cardiac function.