Macrophage-derived foam cells in developing atherosclerotic lesions may potentially originate either from recruitment of circulating monocytes or from migration of resident tissue macrophages. In this study, we have determined the source of intimal macrophages in the apoE-knockout mouse flow-cessation/hypercholesterolemia model of atherosclerosis using a bone marrow transplantation approach. We also examined the time course and spatial distribution of intercellular adhesion molecule-1 and vascular cell adhesion molecule-1 expression to assess whether endothelial adhesion molecules were involved in recruitment of either circulating monocytes or resident macrophages. We used allelic variants of the mouse common leukocyte antigen (CD45) to distinguish host-derived and donor-derived white blood cells (WBCs) both in blood and in macrophage-rich carotid lesions. We found that the distribution of CD45 isoforms in lesions is similar to that of circulating WBCs, whereas the host-type CD45 isoform is more prevalent in resident adventitial macrophages. These data indicate that macrophage-derived foam cells in the lesion derive mainly from circulating precursors rather than from resident macrophages. The corresponding time course of intercellular adhesion molecule-1 and vascular cell adhesion molecule-1 expression suggests that recruitment of circulating WBCs by endothelial adhesion molecules is likely to be more important during lesion initiation than during the later phase of rapid lesion growth. Both in experimental models of atherosclerosis and in human disease, infiltration of macrophages into the arterial intima constitutes one of the earliest cellular events in the development of atherosclerotic lesions. 1-3 Macrophages in the lesion may be derived either from cells already resident in the arterial wall 4 or from circulating monocytes that have undergone diapedesis. Because the mechanisms of cellular recruitment and/or activation are likely to differ depending on the source of the inflammatory cells, determining the relative contribution to lesion growth of cells from these two sources may have important implications in devising successful strategies to slow the growth of lesions.Although much convincing evidence demonstrates the importance of blood-borne monocytes in early lesion development, 1,5,6 the potential contribution of resident macrophages has been more difficult to assess. Experiments involving injection of labeled tracer monocytes can provide estimates for the rate of recruitment of circulating inflammatory cells but do not directly address the issue of mobilization of macrophages already present in arterial tissue. Moreover, alterations in adhesion molecule expression that can occur during monocyte isolation and labeling may modify the interaction between circulating monocytes and the vascular wall. The recent development of a polymerase chain reaction-based method of quantifying monocyte recruitment has shown promise of improved sensitivity and ease of quantitation compared to more traditional approach...
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