The role of receptor MAS in microglia-driven retinal vascular development

To assess the role of MAS on vascular network development, flat-mounted retinas from 3-day-old wild-type (WT) and Mas1-/- mice were subjected to Isolectin B4 staining. The progression of the vascular front was reduced (- 24%, p < 0.0001) and vascular density decreased (- 38%, p < 0.001) in Mas1-/- compared to WT mice with no change in the junction density. The number of filopodia and filopodia bursts were decreased in Mas1-/- mice at the vascular front (- 21%, p < 0.05; - 29%, p < 0.0001, respectively). This was associated with a decreased number of vascular loops and decreased microglial density at the vascular front in Mas1-/- mice (-32%, p < 0.001; - 26%, p < 0.05, respectively). As the front of the developing vasculature is characterized by reduced oxygen levels, we determined the expression of Mas1 following hypoxia in primary microglia from 3-day-old WT mice. Hypoxia induced a 14-fold increase of Mas1 mRNA expression (p < 0.01). Moreover, stimulation of primary microglia with a MAS agonist induced expression of Notch1 (+ 57%, p < 0.05), Dll4 (+ 220%, p < 0.001) and Jag1 (+ 137%, p < 0.001), genes previously described to mediate microglia/endothelial cell interaction during angiogenesis. Conclusions: Our study demonstrates that the activation of MAS is important for microglia recruitment and vascular growth in the developing retina.

Our study demonstrates that the activation of MAS is important for microglia recruitment and vascular growth in the developing retina.

The receptor MAS, encoded by Mas1, is expressed in microglia and its activation has been linked to anti-inflammatory actions. However, microglia are involved in several different processes in the central nervous system, including the promotion of angiogenesis. We therefore hypothesized that the receptor MAS also plays a role in angiogenesis via microglia. Approach and

To assess the role of MAS on vascular network development, flat-mounted retinas from 3-day-old wild-type (WT) and Mas1-/- mice were subjected to Isolectin B4 staining. The progression of the vascular front was reduced (- 24%, p < 0.0001) and vascular density decreased (- 38%, p < 0.001) in Mas1-/- compared to WT mice with no change in the junction density. The number of filopodia and filopodia bursts were decreased in Mas1-/- mice at the vascular front (- 21%, p < 0.05; - 29%, p < 0.0001, respectively). This was associated with a decreased number of vascular loops and decreased microglial density at the vascular front in Mas1-/- mice (-32%, p < 0.001; - 26%, p < 0.05, respectively). As the front of the developing vasculature is characterized by reduced oxygen levels, we determined the expression of Mas1 following hypoxia in primary microglia from 3-day-old WT mice. Hypoxia induced a 14-fold increase of Mas1 mRNA expression (p < 0.01). Moreover, stimulation of primary microglia with a MAS agonist induced expression of Notch1 (+ 57%, p < 0.05), Dll4 (+ 220%, p < 0.001) and Jag1 (+ 137%, p < 0.001), genes previously described to mediate microglia/endothelial cell interaction during angiogenesis. Conclusions: Our study demonstrates that the activation of MAS is important for microglia recruitment and vascular growth in the developing retina.