Objective: To study whether simvastatin reduces inflammation in atherosclerosis beyond its hypolipidemic effects.
Methods: Twenty-four rabbits with induced femoral injury and on an atherogenic diet were randomized to normolipidemic diet (n=9), or to continue the atherogenic diet while receiving simvastatin 5 mg/kg/day (n=9) or no treatment (n=6) for 4 weeks.
Results: As compared with no treatment, the normolipidemic diet significantly reduced lipid levels, while simvastatin produced nonsignificant reductions. In spite of this, NF-kappaB binding activity in peripheral mononuclear cells was reduced in the simvastatin group [2,958+/-5,123 arbitrary units (a.u.)] as compared with no treatment (49,267+/-20,084 a.u.; P<0.05) and normolipidemic groups (41,492+/-15,876 a.u.; P<0.05) (electrophoretic mobility shift assay). NF-kappaB activity in the atherosclerotic lesions was also reduced by simvastatin as compared to nontreated animals (4,108+/-3,264 vs. 8,696+/-2,305 nuclei/mm(2); P<0.05), while the normolipidemic diet induced only a nonsignificant diminution (P>0.05) (Southwestern histochemistry). Similarly, simvastatin decreased macrophage infiltration (4.6+/-12 vs. 19+/-12% of area staining positive; P<0.05) and the expression of interleukin-8 (24+/-12 vs. 63+/-21%; P<0.05) and metalloproteinase-3 (16+/-3 vs. 42+/-28%; P<0.05) (immunohistochemistry), while the reduction achieved by normolipidemic diet in all these parameters was again nonsignificant (P>0.05).
Conclusions: These findings suggest that simvastatin reduces inflammation in atherosclerotic plaques and in blood mononuclear cells more than expected for the lipid reduction achieved.