CCR2 receptor blockade alters blood monocyte subpopulations but does not affect atherosclerotic lesions in apoE(-/-) mice

Abstract

Objective: The CCR2 receptor plays a crucial role in monocyte recruitment and has been implicated as a contributing factor to atherosclerosis. CCR2 receptor deletion leads to significant inhibition of lesion development. Our objective was to determine if CCR2 receptor blockade with a small molecule would have a beneficial effect of decreasing established lesions.

Methods and results: We demonstrated that CCR2 blockade had no significant effect on advanced lesions or the progression of fatty streaks. CCR2 blockade in mice resulted in elevations in plasma CCL2 levels and a significant reduction in the plasma Ly-6C(hi) subpopulations of monocytes expressing the CCR2 receptor. Neither CCL2 elevation nor margination of the Ly-6C(hi) population was observed in CCR2(-/-) mice.

Conclusions: CCR2 receptor blockade with a small molecule antagonist at dose levels showing efficacy in several inflammatory models did not show a beneficial effect in murine models of atherosclerosis. Elevations in CCL2 and margination of Ly-6C(hi) cells demonstrate that the role of CCR2 in controlling monocyte levels goes beyond the control of monocyte emigration.