Aims: Vascular cartilaginous metaplasia and calcification are common in patients with atherosclerosis. However, sources of cells contributing to the development of this complication are currently unknown. In this study, we ascertained the origin of cells that give rise to cartilaginous and bony elements in atherosclerotic vessels.

Methods And Results: We utilized genetic fate mapping strategies to trace cells of smooth muscle (SM) origin via SM22α-Cre recombinase and Rosa26-LacZ Cre reporter alleles. In animals expressing both transgenes, co-existence within a single cell of β-galactosidase [marking cells originally derived from SM cells (SMCs)] with osteochondrogenic (Runx2/Cbfa1) or chondrocytic (Sox9, type II collagen) markers, along with simultaneous loss of SM lineage proteins, provides a strong evidence supporting reprogramming of SMCs towards osteochondrogenic or chondrocytic differentiation. Using this technique, we found that vascular SMCs accounted for ~80% of Runx2/Cbfa1-positive cells and almost all of type II collagen-positive cells (~98%) in atherosclerotic vessels of LDLr-/- and ApoE-/- mice. We also assessed contribution from bone marrow (BM)-derived cells via analysing vessels dissected from chimerical ApoE-/- mice transplanted with green fluorescence protein-expressing BM. Marrow-derived cells were found to account for ~20% of Runx2/Cbfa1-positive cells in calcified atherosclerotic vessels of ApoE-/- mice.

Conclusion: Our results are the first to definitively identify cell sources attributable to atherosclerotic intimal calcification. SMCs were found to be a major contributor that reprogrammed its lineage towards osteochondrogenesis. Marrow-derived cells from the circulation also contributed significantly to the early osteochondrogenic differentiation in atherosclerotic vessels.

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http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3353803PMC
http://dx.doi.org/10.1093/cvr/cvs126DOI Listing

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