| Popis: |
Vascular networks are comprised of endothelial cells and mural cells, which include pericytes and smooth muscle cells. It is well established that new endothelial cells are derived from pre-existing ones during the angiogenic phase of blood vessel growth. By contrast, mural cell ontogeny is less clear with an ongoing debate whether mural cells possess mesenchymal stem cell properties. To elucidate the mechanisms controlling mural cell recruitment during development and tissue regeneration, we studied the formation of zebrafish caudal fin arteries. Mural cells showed morphological heterogeneity: cells colonizing arteries proximal to the body wrapped around them, while those in more distal regions extended protrusions along the proximo-distal vascular axis. Despite these differences, both cell populations expressed platelet-derived growth factor receptor beta (Pdgfrb) and the smooth muscle cell marker myosin heavy chain 11a (Myh11a). Loss of Pdgfrb signalling during development or tissue regeneration resulted in a substantial decrease in mural cells at the vascular front, while those proximal to the body were less affected. Using lineage tracing, we demonstrate that precursor cells located in periarterial regions of the caudal fin and expressing Pgdfrb can give rise to mural cells, while in regeneration newly formed mural cells were not derived from pre-existing ones. Together, our findings reveal conserved roles for pdgfrb signalling in development and regeneration, while at the same time illustrating a limited capacity of mural cells to self-renew or contribute to other cell types during tissue regeneration. |
