Dendritic cell dysfunction and diabetic sensory neuropathy in the cornea
Nan Gao, … , Haijing Sun, Fu-Shin Yu
Nan Gao, … , Haijing Sun, Fu-Shin Yu
Published April 11, 2016
Citation Information: J Clin Invest. 2016;126(5):1998-2011. https://doi.org/10.1172/JCI85097.
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Research Article Inflammation

Dendritic cell dysfunction and diabetic sensory neuropathy in the cornea

Abstract

Diabetic peripheral neuropathy (DPN) often leads to neurotrophic ulcerations in the cornea and skin; however, the underlying cellular mechanisms of this complication are poorly understood. Here, we used post-wound corneal sensory degeneration and regeneration as a model and tested the hypothesis that diabetes adversely affects DC populations and infiltration, resulting in disrupted DC-nerve communication and DPN. In streptozotocin-induced type 1 diabetic mice, there was a substantial reduction in sensory nerve density and the number of intraepithelial DCs in unwounded (UW) corneas. In wounded corneas, diabetes markedly delayed sensory nerve regeneration and reduced the number of infiltrating DCs, which were a major source of ciliary neurotrophic factor (CNTF) in the cornea. While CNTF neutralization retarded reinnervation in normal corneas, exogenous CNTF accelerated nerve regeneration in the wounded corneas of diabetic mice and healthy animals, in which DCs had been locally depleted. Moreover, blockade of the CNTF-specific receptor CNTFRα induced sensory nerve degeneration and retarded regeneration in normal corneas. Soluble CNTFRα also partially restored the branching of diabetes-suppressed sensory nerve endings and regeneration in the diabetic corneas. Collectively, our data show that DCs mediate sensory nerve innervation and regeneration through CNTF and that diabetes reduces DC populations in UW and wounded corneas, resulting in decreased CNTF and impaired sensory nerve innervation and regeneration.

Authors

Nan Gao, Chenxi Yan, Patrick Lee, Haijing Sun, Fu-Shin Yu

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Figure 2

Quantitation of DCs in UW NL and DM mouse corneas.

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Quantitation of DCs in UW NL and DM mouse corneas. UW corneas were stain...
UW corneas were stained for CD11c and/or costained for CD11c and MHC class II and visualized with WMCM. (A) Whole-cornea images were assembled from WMCM images acquired with ROI scanning of a defined area as described in Figure 1. Two morphologically distinctive CD11c-positive cells were detected: dendriform (arrows) and rounded-shaped (arrowheads) DCs, which are better illustrated in the higher-magnification bottom panel images of the framed “I” areas in the top panel images. Scale bars: 125 μm (top panel) and 58 μm (bottom panel). L, limbus. (B) CD11c-positive cell numbers in UW corneas were counted manually. Results are presented as the average number of CD11c-positive cells (particles) per cornea. Three independent experiments were performed. **P < 0.01, by 2-tailed, unpaired Student’s t test. (C) Costaining for CD11c and MHC class II Abs. Two morphologically distinctive CD11c-positive cells, dendriform (arrows) and rounded-shaped DCs (arrowheads), were observed, and all CD11c-positive cells were also MHC class II positive in UW NL and DM corneas. Scale bar: 58 μm.