Dissecting developmental origins and pericyte dynamics during coverage of brain vessels

Pericytes are mural cells that provide support to the endothelium of small blood vessels. Pericyte soma are regularly spaced along vessels, and their processes overlap only slightly. Given that vessel patterning is imprecise, we explore the interplay between vessel growth and pericyte recruitment that leads to even pericyte spacing. After recruitment to the zebrafish brain central arteries (CtAs), pericytes undergo rapid expansion, followed by morphological differentiation. Blocking angiogenesis by reducing Gpr124 (Wnt) or Vegf signaling reduces the length of the vessel network and the number of pericytes, preserving spacing, suggesting proportional recruitment of pericytes to cover the network and the territorial nature of pericytes. However, these initial brain pericytes have low proliferation rates. We demonstrate that additional pericytes are recruited firstly through migration of col5a1- and later col1a2-expressing fibroblasts into the brain. These second-wave pericytes retain some fibroblast properties and show elevated col1a2 levels in a model of pericyte loss (notch3 mutants). Our data provide new insights into the developmental timing, expansion, and novel origins of late-arriving brain pericytes during embryogenesis. SUMMARY STATEMENTThis article demonstrates that brain pericytes originate from multiple sources, including fibroblast-derived populations, and how pericyte numbers are adjusted in proportion to vessel development.