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Paper Title

MicroRNA and Protein Cargos of Human Limbal Epithelial Cell-Derived Exosomes and Their Regulatory Roles in Limbal Stromal Cells of Diabetic and Non-Diabetic Corneas

Authors

Drirh Khare
Drirh Khare
Cynthia Amador
Cynthia Amador
Andrew Fealy
Andrew Fealy
Shaghaiegh Ebrahimi
Shaghaiegh Ebrahimi
Odelia Shadrokh
Odelia Shadrokh
Alexander Ljubimov
Alexander Ljubimov
Mitra Mastali
Mitra Mastali
Sarah Parker
Sarah Parker
Aleksandr Stotland
Aleksandr Stotland
Jennifer Van
Jennifer Van
Sean Ghiam
Sean Ghiam
Xue-Ying Song
Xue-Ying Song

Article Type

Research Article

Journal

Cells

Research Impact Tools

Issue

Volume : 12 | Issue : 21 | Page No : 1-22

Published On

October, 2023

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Abstract

Epithelial and stromal/mesenchymal limbal stem cells contribute to corneal homeostasis and cell renewal. Extracellular vesicles (EVs), including exosomes (Exos), can be paracrine mediators of intercellular communication. Previously, we described cargos and regulatory roles of limbal stromal cell (LSC)-derived Exos in non-diabetic (N) and diabetic (DM) limbal epithelial cells (LECs). Presently, we quantify the miRNA and proteome profiles of human LEC-derived Exos and their regulatory roles in N- and DM-LSC. We revealed some miRNA and protein differences in DM vs. N-LEC-derived Exos’ cargos, including proteins involved in Exo biogenesis and packaging that may affect Exo production and ultimately cellular crosstalk and corneal function. Treatment by N-Exos, but not by DM-Exos, enhanced wound healing in cultured N-LSCs and increased proliferation rates in N and DM LSCs vs. corresponding untreated (control) cells. N-Exos-treated LSCs reduced the keratocyte markers ALDH3A1 and lumican and increased the MSC markers CD73, CD90, and CD105 vs. control LSCs. These being opposite to the changes quantified in wounded LSCs. Overall, N-LEC Exos have a more pronounced effect on LSC wound healing, proliferation, and stem cell marker expression than DM-LEC Exos. This suggests that regulatory miRNA and protein cargo differences in DM- vs. N-LEC-derived Exos could contribute to the disease state.

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