PURPOSE: To analyze the roles of vitreal macrophages and circulating leukocytes in retinal vascular growth. METHODS: Bone marrow (BM) cells from green fluorescent protein (GFP) transgenic mice were transplanted into postnatal day (P)1 mice after irradiation. The mice were exposed to 76% to 78% oxygen (P7-P12), to initiate oxygen-induced retinopathy (OIR). The eyes were collected at P8, P17, and P30, to analyze the engraftment of GFP-positive cells in the retina. GFP-positive peritoneal macrophages, clodronate liposomes, or control liposomes were injected into the eyes at P5 or P12 to examine the effects at P8 or P17. The number of Iba1-positive vitreal macrophages was quantified from histologic sections at P12 and P17. RESULTS: Few transplanted GFP-positive cells were found in the retina at P8 in both wild-type and OIR mice. However, their number increased at P17 during retinal neovascularization in OIR. Most GFP-positive cells were Iba1-positive microglia, which comprised a minority of the total retinal microglia. Intravitreal injection of peritoneal macrophages showed only incidental migration of these cells into the wild-type retinas (P8), whereas the engraftment was more robust, typically around the neovascularization, in OIR mice (P17). Furthermore, native macrophages in the vitreous cavity became fewer (37.7% reduction) during neovascularization in OIR at P17. The selective depletion of vitreal macrophages by clodronate liposomes at P12 reduced retinal neovascularization in OIR mice by 59.0% at P17. CONCLUSIONS: Vitreal macrophages are attracted to the site of pathologic angiogenesis triggered by retinal ischemia, where they actively participate in vascular development.
PURPOSE: To analyze the roles of vitreal macrophages and circulating leukocytes in retinal vascular growth. METHODS: Bone marrow (BM) cells from green fluorescent protein (GFP) transgenic mice were transplanted into postnatal day (P)1 mice after irradiation. The mice were exposed to 76% to 78% oxygen (P7-P12), to initiate oxygen-induced retinopathy (OIR). The eyes were collected at P8, P17, and P30, to analyze the engraftment of GFP-positive cells in the retina. GFP-positive peritoneal macrophages, clodronate liposomes, or control liposomes were injected into the eyes at P5 or P12 to examine the effects at P8 or P17. The number of Iba1-positive vitreal macrophages was quantified from histologic sections at P12 and P17. RESULTS: Few transplanted GFP-positive cells were found in the retina at P8 in both wild-type and OIR mice. However, their number increased at P17 during retinal neovascularization in OIR. Most GFP-positive cells were Iba1-positive microglia, which comprised a minority of the total retinal microglia. Intravitreal injection of peritoneal macrophages showed only incidental migration of these cells into the wild-type retinas (P8), whereas the engraftment was more robust, typically around the neovascularization, in OIR mice (P17). Furthermore, native macrophages in the vitreous cavity became fewer (37.7% reduction) during neovascularization in OIR at P17. The selective depletion of vitreal macrophages by clodronate liposomes at P12 reduced retinal neovascularization in OIR mice by 59.0% at P17. CONCLUSIONS: Vitreal macrophages are attracted to the site of pathologic angiogenesis triggered by retinal ischemia, where they actively participate in vascular development.
Authors: Jing Chen; Shaday Michan; Aimee M Juan; Christian G Hurst; Colman J Hatton; Dorothy T Pei; Jean-Sebastien Joyal; Lucy P Evans; Zhenghao Cui; Andreas Stahl; Przemyslaw Sapieha; David A Sinclair; Lois E H Smith Journal: Angiogenesis Date: 2013-08-04 Impact factor: 9.596