Augmented cell cycle protein expression and kinase activity in atherosclerotic rabbit vessels.

Cell proliferation within a primary atherosclerotic plaque is controversial. Identifying changes in cell cycle protein expression and the activities of their related kinases would provide valuable evidence of mitotic activity in the atherosclerotic lesion. Oxidized low-density lipoprotein has been shown to induce a significant increase in the total number of rabbit vascular smooth muscle cells in culture. In the present study, whole aortic cell extracts were harvested from rabbits fed a cholesterol-supplemented diet for eight weeks to induce modest plaque development, or 16 weeks to induce later, more severe plaque progression. Expression levels of cyclin A, cyclin-dependent kinase 4 (Cdk 4) and proliferating cell nuclear antigen were measured, as well as the activities of Cdk 4, Cdk 2 and Cdk 1. At both time points, the expression levels of cyclin A, Cdk 4 and proliferating cell nuclear antigen were significantly elevated. The activity of all three Cdks was also increased. There were no significant differences between moderate and more severe atherosclerosis. Surprisingly, tissues that neighboured the plaques, but did not show visible plaque formation on the vessel surface, also had significantly elevated cyclin A expression levels, but not as high as in the plaque areas. In conclusion, the primary atherosclerotic plaque exhibited elevated mitotic activity as shown by increased expression levels and activities of several cell cycle proteins. Expression levels were similar during moderate and severe atherosclerosis, and were even detected in nonatherosclerotic vascular tissue bordering the plaque.