Reversible retinal vessel closure from VEGF-induced leukocyte plugging
Yuanyuan Liu, Jikui Shen, Seth D. Fortmann, Jiangxia Wang, Dietmar Vestweber, Peter A. Campochiaro
Yuanyuan Liu, Jikui Shen, Seth D. Fortmann, Jiangxia Wang, Dietmar Vestweber, Peter A. Campochiaro
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Research Article Vascular biology

Reversible retinal vessel closure from VEGF-induced leukocyte plugging

Abstract

Clinical trials in patients with macular edema due to diabetic retinopathy or retinal vein occlusion (RVO) have shown that suppression of VEGF not only improves macular edema, but also reopens closed retinal vessels, prevents progression of vessel closure, and improves retinopathy. In this study, we show the molecular basis for those clinical observations. Increased retinal levels of VEGF in mice cause plugging of retinal vessels with leukocytes, vessel closure, and hypoxia. Suppression of VEGF reduces leukocyte plugging, causing reperfusion of closed vessels. Activation of VEGFR1 contributes to leukocyte recruitment, because it is significantly reduced by an anti-VEGFR1–neutralizing antibody. High VEGF increases transcriptional activity of NF-κB and expression of NF-κB target genes, particularly Vcam1. Injection of an anti-VCAM-1–neutralizing antibody reduces VEGF-induced leukocyte plugging. These data explain the broad range of benefits obtained by VEGF suppression in patients with ischemic retinopathies, provide an important insight into the pathogenesis of RVO and diabetic retinopathy, and suggest that sustained suppression of VEGF early in the course of these diseases may prevent vessel closure, worsening ischemia, and disease progression. This study also identifies VEGFR1 and VCAM-1 as molecular targets whose suppression could supplement VEGF neutralization for treatment of RVO and diabetic retinopathy.

Authors

Yuanyuan Liu, Jikui Shen, Seth D. Fortmann, Jiangxia Wang, Dietmar Vestweber, Peter A. Campochiaro

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Figure 4

Chronic elevation of VEGF in the retinas of rho/VEGF-transgenic mice causes gradually increasing leukostasis and retinal nonperfusion.

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Chronic elevation of VEGF in the retinas of rho/VEGF-transgenic mice cau...
Rho/VEGF-transgenic mice of different ages, day 16, day 20, day 30, 7 months, 12 months, or 15 months, or normal wild-type mice at 5 weeks (N-5wk) or 8 months of age (N-mo8) were perfused with rhodamine-labeled Con A. Several vessels showed single adherent leukocytes in day 20 rho/VEGF mice (A) and more were seen in day 30 mice (B). In 7-month-old or older rho/VEGF mice, there were many more intravascular leukocytes and they often appeared to occlude the lumen of vessels exemplified in 3 separate 7-month-old mice by plugging at a vessel bifurcation (C), by a line of leukocytes (D), or packing of a substantial length of a vessel lumen with a large aggregate (E). Similarly, there were leukocytes plugging vessels particularly at branch points in the retinas of 12-month-old (F) and 15-month-old (G) rho/VEGF mice. The mean (± SEM) number of intravascular leukocytes per retina in both 20-day-old and 30-day-old rho/VEGF mice, but not 16-day-old mice, was significantly greater than that in N-5W control mice (*P = 0.05; P = 0.022 [day 20], P < 0.001 [day 30], P = 0.349 [day 16] compared to 5 weeks by unpaired t tests) and mean intravascular leukocytes were significantly greater in 7-month-old, 12-month-old, and 15-month-old rho/VEGF mice compared with N-8M control mice (H) (n = 6 for each bar except 7 months, for which n = 9; **P < 0.001 by unpaired t tests). Retinal flat mounts from fluorescein-dextran-perfused 7-month-old (I) and 12-month-old (J) rho/VEGF mice show abruptly ending vessels and large areas of nonperfusion (asterisks). Scale bar: 50 μm (AD and G); 100 μm (E and F).