BACKGROUND: Statins (HMG-CoA reductase inhibitors), are known to improve cardiac function in diabetes-induced cardiovascular disease. We investigated the mechanism by which statins ameliorate cardiac function after myocardial infarction (MI). Simvastatin (S) increased tube formation and migration of HUVEC in vitro. We examined the role of simvastatin on cardiac function in streptozotocin (STZ) induced diabetic rats subjected to MI. METHODS: Rats were randomly assigned to 1) Control (non-diabetic) Sham (CS); 2) Control (non-diabetic) MI (CMI); 3) Control Statin treated Sham (CSS); 4) Control Statin treated MI (CSMI); 5) Diabetic Sham (DS); 6) Diabetic MI (DMI); 7) Diabetic Statin treated Sham (DSS); 8) Diabetic Statin treated MI (DSMI). Two weeks after STZ/saline injection Simvastatin (1mg/kg.b.wt) was gavaged for 15 days (d). MI was induced 30 d after treatment by permanent LAD ligation. RESULTS: The S treated MI groups exhibited increased arteriolar density (23 ± 0.6 vs. 14.8 ± 0.4 counts/mm(2), DSMI vs. DMI) and reduced fibrosis at 30 d post-MI. VEGF measurement by ELISA after 4d post-MI showed increased expression in DSMI group compared to DMI group. Western blot analysis showed decreased Prolyl-4-Hydroxylase 3 (PHD-3) in DSMI group as compared to DMI group. Echocardiographic analysis 4 weeks after post-MI showed significant improvement in ejection fraction (50.11 ± 1.83 vs. 32.46 ± 2.19%; DSMI vs. DMI) and fractional shortening (26.77 ± 1.12 vs.16.36 ± 1.22%; DSMI vs. DMI) in both statin-treated MI groups regardless of diabetic status. CONCLUSION: These results suggest that statin therapy mitigates impairment of angiogenesis and myocardial dysfunction following MI in the diabetic rat through PHD3 inhibition.
BACKGROUND: Statins (HMG-CoA reductase inhibitors), are known to improve cardiac function in diabetes-induced cardiovascular disease. We investigated the mechanism by which statins ameliorate cardiac function after myocardial infarction (MI). Simvastatin (S) increased tube formation and migration of HUVEC in vitro. We examined the role of simvastatin on cardiac function in streptozotocin (STZ) induced diabeticrats subjected to MI. METHODS:Rats were randomly assigned to 1) Control (non-diabetic) Sham (CS); 2) Control (non-diabetic) MI (CMI); 3) Control Statin treated Sham (CSS); 4) Control Statin treated MI (CSMI); 5) Diabetic Sham (DS); 6) Diabetic MI (DMI); 7) Diabetic Statin treated Sham (DSS); 8) Diabetic Statin treated MI (DSMI). Two weeks after STZ/saline injection Simvastatin (1mg/kg.b.wt) was gavaged for 15 days (d). MI was induced 30 d after treatment by permanent LAD ligation. RESULTS: The S treated MI groups exhibited increased arteriolar density (23 ± 0.6 vs. 14.8 ± 0.4 counts/mm(2), DSMI vs. DMI) and reduced fibrosis at 30 d post-MI. VEGF measurement by ELISA after 4d post-MI showed increased expression in DSMI group compared to DMI group. Western blot analysis showed decreased Prolyl-4-Hydroxylase 3 (PHD-3) in DSMI group as compared to DMI group. Echocardiographic analysis 4 weeks after post-MI showed significant improvement in ejection fraction (50.11 ± 1.83 vs. 32.46 ± 2.19%; DSMI vs. DMI) and fractional shortening (26.77 ± 1.12 vs.16.36 ± 1.22%; DSMI vs. DMI) in both statin-treated MI groups regardless of diabetic status. CONCLUSION: These results suggest that statin therapy mitigates impairment of angiogenesis and myocardial dysfunction following MI in the diabeticrat through PHD3 inhibition.
Authors: Helen Pullisaar; Hanna Tiainen; Maria A Landin; Ståle P Lyngstadaas; Håvard J Haugen; Janne E Reseland; Esben Ostrup Journal: J Tissue Eng Date: 2013-11-26 Impact factor: 7.813