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Corneal wound healing and nerve regeneration

$422,125R01FY2016EYNIH

University Of Rochester, Rochester NY

Investigators

Linked publications & trials

Abstract

? DESCRIPTION (provided by applicant): Corneal nerves are important for the health of the cornea, as well as for protecting the eye from outside elements. These nerves are predominantly nociceptive, coding discomfort and pain in response to mechanical stimulation, temperature change and/or chemical stimulation. Disease, infection and ocular surgery can all damage corneal nerves, with long-term consequences in terms of pain, dry eye, recurrent erosions, opacity and even blindness. Yet, there are no effective therapies in clinical practice fo treating nerve dysfunction in the will use our cat model of corneal wound healing after photorefractive keratectomy (PRK) and a combination of in vivo and in vitro approaches to study the basic mechanisms controlling adult, corneal nerve regeneration post-injury. Our preliminary data show clear abnormalities of re-innervation in different nerve layers (stroma, sub-basal plexus, epithelium) and major modulation of nerve regeneration by topical anti-fibrotics. These data suggest an inhibitory influence of myofibroblasts on regenerating nerves and/or their associated glia (non-myelinating Schwann cells - NMSCs), leading us to propose the following central hypothesis for this renewal application: myofibroblast transformation that occurs in response to large corneal wounds directly inhibits nerve regeneration. Thus, blocking myofibroblast differentiation during the early wound healing response is critical for restoring normal corneal innervation to the epithelium and stroma. We will test this hypothesis by: Aim 1 - assessing the impact of myofibroblast differentiation on corneal nerve regeneration and NMSCs after PRK; Aim 2 - assessing the effect of blocking myofibroblast differentiation on corneal nerve regeneration and NMSCs after PRK; Aim 3 - context of corneal wounds. The proposed experiments assessing the long-term impact of abnormal corneal re-innervation on corneal optics; and Aim 4 - characterizing the interactions between corneal fibroblasts, myofibroblasts and sensory neurons in vitro and testing the hypothesis that myofibroblasts inhibit neurite outgrowth via Sema3A. The proposed, systematic characterization of nerve regeneration, nerve-myofibroblast interactions and their molecular mechanisms during wound healing are critical for the development of new therapeutic strategies to treat corneal wounds with an eye to promoting optimal nerve regeneration and ensuring long-term health of the ocular surface.

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