Literature DB >> 26332224

Topical Mitomycin-C enhances subbasal nerve regeneration and reduces erosion frequency in the debridement wounded mouse cornea.

Sonali Pal-Ghosh1, Ahdeah Pajoohesh-Ganji1, Gauri Tadvalkar1, Briana M Kyne2, Xiaoqing Guo3, James D Zieske3, Mary Ann Stepp4.   

Abstract

Corneal epithelial basement membrane dystrophies and superficial injuries caused by scratches can lead to recurrent corneal erosion syndrome (RCES). Patients and animals with reduced corneal sensory nerve innervation can also develop recurrent erosions. Multiple wild-type mouse strains will spontaneously develop recurrent corneal erosions after single 1.5 mm debridement wounds. Here we show that this wound is accompanied by an increase in corneal epithelial cell proliferation after wound closure but without a commensurate increase in corneal epithelial thickness. We investigated whether excess corneal epithelial cell proliferation contributes to erosion formation. We found that topical application of Mitomycin C (MMC), a drug used clinically to improve healing after glaucoma and refractive surgery, reduces erosion frequency, enhances subbasal axon density to levels seen in unwounded corneas, and prevents excess epithelial cell proliferation after debridement wounding. These results suggest that topically applied MMC, which successfully reduces corneal haze and scarring after PRK, may also function to enhance subbasal nerve regeneration and epithelial adhesion when used to treat RCES.
Copyright © 2015 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  Cornea; Epithelium; Erosions; Mouse; Reinnervation; Subbasal nerves; Wound healing

Mesh:

Substances:

Year:  2015        PMID: 26332224      PMCID: PMC4775450          DOI: 10.1016/j.exer.2015.08.023

Source DB:  PubMed          Journal:  Exp Eye Res        ISSN: 0014-4835            Impact factor:   3.467


  32 in total

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5.  The impact of euthanasia and enucleation on mouse corneal epithelial axon density and nerve terminal morphology.

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10.  Alterations in Corneal Sensory Nerves During Homeostasis, Aging, and After Injury in Mice Lacking the Heparan Sulfate Proteoglycan Syndecan-1.

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