Targeted deletion of Vegfa in adult mice induces vision loss
Toshihide Kurihara, … , Edith Aguilar, Martin Friedlander
Toshihide Kurihara, … , Edith Aguilar, Martin Friedlander
Published October 24, 2012
Citation Information: J Clin Invest. 2012;122(11):4213-4217. https://doi.org/10.1172/JCI65157.
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Brief Report

Targeted deletion of Vegfa in adult mice induces vision loss

Abstract

Current therapies directed at controlling vascular abnormalities in cancers and neovascular eye diseases target VEGF and can slow the progression of these diseases. While the critical role of VEGF in development has been well described, the function of locally synthesized VEGF in the adult eye is incompletely understood. Here, we show that conditionally knocking out Vegfa in adult mouse retinal pigmented epithelial (RPE) cells, which regulate retinal homeostasis, rapidly leads to vision loss and ablation of the choriocapillaris, the major blood supply for the outer retina and photoreceptor cells. This deletion also caused rapid dysfunction of cone photoreceptors, the cells responsible for fine visual acuity and color vision. Furthermore, Vegfa deletion showed significant downregulation of multiple angiogenic genes in both physiological and pathological states, whereas the deletion of the upstream regulatory transcriptional factors HIFs did not affect the physiological expressions of angiogenic genes. These results suggest that endogenous VEGF provides critical trophic support necessary for retinal function. Targeting factors upstream of VEGF, such as HIFs, may be therapeutically advantageous compared with more potent and selective VEGF antagonists, which may have more off-target inhibitory trophic effects.

Authors

Toshihide Kurihara, Peter D. Westenskow, Stephen Bravo, Edith Aguilar, Martin Friedlander

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Figure 3

Attenuated angiogenic gene regulation in pathological states of Vegfa conditional mutants.

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Attenuated angiogenic gene regulation in pathological states of Vegfa co...
(A) Representative Z projections of laser-CNV lesions (stained with GS lectin). (B) Quantified lesion volumes of laser-CNV (n = 8–21). Note that laser-CNV is only partially reduced in the Hif1a mutants, while it is completely inhibited in the Epas1 and Hif1a;Epas1 mutants (comparable to that observed in the Vegfa mutants). (C) mRNA array for angiogenic genes in Hif1a, Epas1, and Hif1a;Epas1 mutant RPE/choroids compared with controls in laser-irradiated C57BL/6 wild-type, Vegfa, Hif1a, Epas1, and Hif1a;Epas1 mutants compared with naive state controls (n = 3). Fold-change (x axis) and P value (y axis) of gene expression compared with controls. Note that few or no significantly dysregulated genes are observed in naive state Hif1a, Epas1, or Hif1a;Epas1 mutants. Twenty-two upregulated and 3 downregulated angiogenic genes are observed in laser-irradiated B6 wild-type mice, whereas we observed 7 (up) and 23 (down) in Vegfa mutants, 6 (up) and 1 (down) in Hif1a mutants, 6 (up) and 1 (down) in Epas1 mutants, and 10 (up) and 4 (down) in Hif1a;Epas1 mutants. *P < 0.05; **P < 0.01; 2-tailed Student’s t tests. Error bars indicate mean ± SD. Scale bar: 100 μm.