VEGF188 promotes corneal reinnervation after injury
James T. Brash, Laura Denti, Christiana Ruhrberg, Franziska Bucher
James T. Brash, Laura Denti, Christiana Ruhrberg, Franziska Bucher
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Research Article Ophthalmology

VEGF188 promotes corneal reinnervation after injury

Abstract

Vascular endothelial growth factor A (VEGF) induces angiogenesis and vascular hyperpermeability in ocular tissues and is therefore a key therapeutic target for eye conditions in which these processes are dysregulated. In contrast, the therapeutic potential of VEGF’s neurotrophic roles in the eye has remained unexploited. In particular, it is not known whether modulating levels of any of the 3 major alternatively spliced VEGF isoforms might provide a therapeutic approach to promote neural health in the eye without inducing vascular pathology. Here, we have used a variety of mouse models to demonstrate differences in overall VEGF levels and VEGF isoform ratios across tissues in the healthy eye. We further show that VEGF isoform expression was differentially regulated in retinal versus corneal disease models. Among the 3 major isoforms — termed VEGF120, VEGF164, and VEGF188 — VEGF188 was upregulated to the greatest extent in injured cornea, where it was both necessary and sufficient for corneal nerve regeneration. Moreover, topical VEGF188 application further promoted corneal nerve regeneration without inducing pathological neovascularization. VEGF isoform modulation should therefore be explored further for its potential in promoting neural health in the eye.

Authors

James T. Brash, Laura Denti, Christiana Ruhrberg, Franziska Bucher

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Figure 1

Comparison of VEGF expression across healthy adult ocular tissues.

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Comparison of VEGF expression across healthy adult ocular tissues. (A an...
(A and B) VEGF protein content in ocular tissues from wild-type CD1 mice, determined by ELISA; n = 4 mice each; data are shown as mean ± SD per milliliter lysate (A) or as mean ± SD proportion of total protein in the lysates (B). (C–E) Vegfa transcript levels in ocular tissues from wild-type CD1 mice, determined by qRT-PCR; n = 4 mice each. (C) Total Vegfa expression for each tissue relative to expression in the cornea (mean ± SD). (D) Schematic representation of the exon structure of the 3 major mouse Vegfa isoform transcripts, including the alternatively spliced domains that encode the extracellular matrix–binding domains (yellow); the positions of the isoform-selective oligonucleotide primers used are indicated arrows, and the amplified region by dashed lines. (E) Proportions of Vegfa isoforms (mean; only the negative SD arm is shown). Each data point represents the value for pooled tissues from both eyes of 1 mouse (A and B) or the tissue from 1 eye of 1 mouse (C).