Browsing by Subject "Neurotrophic keratopathy (NK)"
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Item 72. The Role of TrkA And P75NTR NGF Receptors in Corneal Wound Healing(Wolters Kluwer, 2022) Tajdaran, Kiana; Feinberg, Konstantin; Mirmoeini, Seyed K.; Zhang, Jennifer; Gordon, Tessa; Ali, Asim; Borschel, Gregory; Surgery, School of MedicinePurpose: The cornea is the window through which we see the world and is one of the most densely innervated structures in the body. Besides providing protective sensory input, corneal nerves may also stimulate limbal stem cells (LSCs), governing corneal epithelial maintenance and recovery. Loss of corneal innervation, through injury, diabetes, tumors, infections, and even improper contact lens use, leads to neurotrophic keratopathy (NK), a degenerative corneal disease that is characterized by corneal epithelial breakdown, scarring, and permanent vision loss1. The only non-invasive treatment option for NK is human recombinant nerve growth factor (rhNGF), but the short half-life of exogenous neurotrophins-based therapies limits their effecacy2. Development of small molecule ligands for neurotrophin receptors that have more favorable pharmacokinetics and plasma stability showed promising results in the treatment of several neurodegenerative conditions in recent years3. In this study, we investigated the molecular mechanism of NK and the role of the NGF receptors, TrkA and p75NTR, in corneal healing. We hypothesized that TrkA inhibition would delay corneal wound healing and p75NTR inhibition would accelerate corneal healing. Establishing the roles of these receptors may enable novel topical therapeutics for NK. Methods: We used commercially available Ntrk1 mutant mice, whose TrkA receptors are inhibited by a mammalian kinase inhibitor (1-NM-PP1)4. Ntrk1 mice (n=20) were divided into three groups, which received saline injection as a control. In one experimental group animals received TrkA inhibitor and the other group received both TrkA and p75 inhibitor for 5 days. On day six we removed the corneal epithelium with a 0.5 mm rotating brush. To measure epithelial healing, we performed digital imaging of fluorescein staining daily for four days after injury. We then harvested the corneas for immunofluorescent and biochemical analyses. Results: We observed a significant delay in corneal epithelial healing following TrkA inhibition. Further, we observed that topical p75NTR inhibition accelerated corneal wound healing. Conclusion: A selective TrkA agonist or p75NTR inhibition could represent new topical therapeutics for NK.Item QS8: The Roles of the TrkA and p75NTR NGF Receptors in Corneal Wound Healing(Wolters Kluwer, 2021-07-26) Tajdaran, Kiana; Feinberg, Konstantin; Mirmoeini, Seyed Kaveh; Zhang, Jennifer; Gordon, Tessa; Borschel, Gregory; Surgery, School of MedicinePurpose: The cornea is the window through which we see the world and is one of the most densely innervated structures in the body. Besides providing protective sensory input, corneal nerves have been postulated to stimulate limbal stem cells (LSCs), hence governing corneal epithelial maintenance and recovery. Loss of corneal innervation, through injury, diabetes, tumors, infections, and even improper contact lens use, leads to neurotrophic keratopathy (NK), a degenerative corneal disease that is characterized by corneal epithelial breakdown, scarring, and permanent vision loss1. The only non-invasive treatment option for NK is the human recombinant nerve growth factor (rhNGF), but the short half-life of exogenous neurotrophins-based therapies make this therapeutic approach less effective2. Development of the small molecule ligands for neurotrophins receptors that have better pharmacokinetics and plasma stability showed promising results in the treatment of several neurodegenerative conditions in the recent years3. In this study, we were prompted to investigate the molecular mechanism of NK and the role of NGF receptors, TrkA and p75NTR, in corneal healing. We hypothesized that TrkA inhibition would delay corneal wound healing and p75NTR inhibition accelerates corneal healing. This knowledge will lay the basis for a new non-invasive approach for NK. Methods: For this experiment, we took advantage of commercially available Ntrk1 mutant mice, which allow for pharmacological inhibition of TrkA receptor with an inhibitor known as not mammalian kinase inhibitor (1-NM-PP1)4. Ntrk1 mice (n=20) were divided into three groups, which received saline injection as a control. In one experimental group animals were received TrkA inhibitor and the other group received both TrkA and p75 inhibitor for 5 days. On day six we removed the corneal epithelium with a 0.5 mm rotating brush. To measure epithelial healing, we performed digital imaging of fluorescein staining daily for four days after injury. We then harvested the corneas for immunofluorescent and biochemical analyses. Results: Our results show a significant delay in corneal epithelial healing following TrkA inhibition and acceleration in corneal healing after p75NTR inhibition. Conclusion: A selective TrkA agonist or p75NTR inhibitors could be a new therapeutic approach for NK.Item Schwann Cells Are Required for Efficient Corneal Wound Healing(Wolters Kluwer, 2021) Mirmoeini, Seyed Kaveh; Feinberg, Konstantin; Tajdaran, Kiana; Zhang, Jennifer; Gordon, Tessa; Borschel, Gregory H.; Surgery, School of MedicineBACKGROUND: Corneal nerves play a crucial role in maintaining corneal health, which includes regulation of activity of limbal stem cell (LSC). Their loss leads to neurotrophic keratopathy (NK), with corneal ulceration, scarring, and ultimately, blindness. Having identified nerve-ensheathing Schwann cells (SC) in the corneal limbus, we hypothesize that SCs, via paracrine interaction with LSC, play a key role in corneal epithelial maintenance and healing. In this study we wanted to (1) Define the role of SCs in corneal healing; (2) Determine the paracrine interaction between the limbal SCs and LSC. METHODS: (1) Local corneal ablation of SCs was induced in a genetically modified mouse where the topical application of tamoxifen induced SCs apoptosis. The corneal epithelium was then removed with an Amoils brush under anesthesia and fluorescein was used to assess healing over 4 days. (2) We performed single-cell RNA expression analysis of 10,000 cells derived from dissociated rat limbus with droplet-based high throughput 10× Genomics to identify ~3000 genes. We used the data to predict possible ligand-receptor interactions between the limbal SCs and LSC. RESULTS: (1) Ablation of SCs impaired corneal wound healing in mouse cornea, suggesting the involvement of SC in innervation-dependent corneal epithelial recovery. (2) Genomic analysis suggested the presence of paracrine crosstalk between SCs and LSCs, and relevant downstream intracellular signaling events in LSCs. The latter included activation of Notch signaling and VEGF-mediated cell migration and inhibition of apoptosis. Further expression analysis comparing the limbal region of healthy and wounded corneas indicated significant changes in the expression of jag1, Pdgfa, Tgfb1, and Ptn genes by SCs. All of these genes could potentially play a role in corneal recovery. CONCLUSIONS: Our findings (i) describe the presence of a high volume of SCs at the limbus, located in close spatial vicinity to LSCs, (ii) demonstrate the importance of the limbal SCs for corneal wound healing, and (iii) suggest the presence of paracrine SC-LSC interaction that may be responsible for the limbal nerve-mediated activation of LSCs during homeostasis or the epithelial wound healing after injury. These findings suggest new therapeutic targets for treating NK.