CD44 expression in endothelial colony-forming cells regulates neurovascular trophic effect
Susumu Sakimoto, Valentina Marchetti, Edith Aguilar, Kelsey Lee, Yoshihiko Usui, Salome Murinello, Felicitas Bucher, Jennifer K. Trombley, Regis Fallon, Ravenska Wagey, Carrie Peters, Elizabeth L. Scheppke, Peter D. Westenskow, Martin Friedlander
Susumu Sakimoto, Valentina Marchetti, Edith Aguilar, Kelsey Lee, Yoshihiko Usui, Salome Murinello, Felicitas Bucher, Jennifer K. Trombley, Regis Fallon, Ravenska Wagey, Carrie Peters, Elizabeth L. Scheppke, Peter D. Westenskow, Martin Friedlander
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Research Article Angiogenesis Stem cells

CD44 expression in endothelial colony-forming cells regulates neurovascular trophic effect

Abstract

Vascular abnormalities are a common component of eye diseases that often lead to vision loss. Vaso-obliteration is associated with inherited retinal degenerations, since photoreceptor atrophy lowers local metabolic demands and vascular support to those regions is no longer required. Given the degree of neurovascular crosstalk in the retina, it may be possible to use one cell type to rescue another cell type in the face of severe stress, such as hypoxia or genetically encoded cell-specific degenerations. Here, we show that intravitreally injected human endothelial colony-forming cells (ECFCs) that can be isolated and differentiated from cord blood in xeno-free media collect in the vitreous cavity and rescue vaso-obliteration and neurodegeneration in animal models of retinal disease. Furthermore, we determined that a subset of the ECFCs was more effective at anatomically and functionally preventing retinopathy; these cells expressed high levels of CD44, the hyaluronic acid receptor, and IGFBPs (insulin-like growth factor–binding proteins). Injection of cultured media from ECFCs or only recombinant human IGFBPs also rescued the ischemia phenotype. These results help us to understand the mechanism of ECFC-based therapies for ischemic insults and retinal neurodegenerative diseases.

Authors

Susumu Sakimoto, Valentina Marchetti, Edith Aguilar, Kelsey Lee, Yoshihiko Usui, Salome Murinello, Felicitas Bucher, Jennifer K. Trombley, Regis Fallon, Ravenska Wagey, Carrie Peters, Elizabeth L. Scheppke, Peter D. Westenskow, Martin Friedlander

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Figure 2

Intravitreally injected human ECFCs regenerate retinal vasculature and localize in the vitreous during oxygen-induced retinopathy.

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Intravitreally injected human ECFCs regenerate retinal vasculature and l...
(A–D) Representative GS lectin–stained flat-mount retinas (A and C), and quantification (B and D), harvested at P17 and treated with human ECFCs or vehicle at P12 (A and B) (n = 19) or at P7 (C and D) (n = 13 in vehicle and n = 14 in ECFCs). In the insets, neovascular tufts (NV) and vaso-obliterated regions (VO) are labeled red and yellow, respectively. (E) FITC dextran perfusion (green) alone and with GS lectin staining (blue) of P12 ECFC-injected retinal vasculature in a oxygen-induced retinopathy model harvested at P17. A high-magnification view of the areas indicated by the white boxes is shown below. Cross-sectional observations of the high-magnification Z-stack images, indicated by the dashed green line (pictured within the green box atop image) and the dashed red line (pictured within the red box adjacent to image) show dextran filling the lectin-stained vessels. (F) Absence of injected GFP-expressing ECFCs (GFP-ECFCs) in flat-mount retinal staining with GS lectin (blue) and/or DAPI (gray). (G) Schematic images of retinal and post-capsular flat-mount mouse eyes. After intravitreal injection of GFP-ECFCs at P12, the cornea, sclera, RPE/choroid, and anterior capsule/nucleus of the lens were removed. (H–J) GFP-ECFCs (green) localized in the vitreous at P14 and P17. (H) Low-magnification images of flat-mount staining of posterior lens capsule and retina and (I and J) high-magnification images with anti-mice PECAM-1 (I, red) and anti-human VE-cadherin antibody staining (J, red). Nuclei were stained with Hoechst33342 (blue). ON, optic nerve; VV, vitreous vessel. Scale bar: 25 μm (E); 50 μm (F [bottom], I, and J); 500 μm (A, C, F [top], and H). *P < 0.05, **P < 0.001, Mann-Whitney test. Error bars represent SEM.