AI Article Synopsis
- Recent research shows that the biomechanical properties of the limbal niche affect the phenotype of epithelial stem cells in the corneal periphery.
- A study found that human limbal epithelial stem cells (LESCs) grown on collagen-like substrates with proper stiffness exhibit higher proliferation and maintain key stem cell markers, while those on stiffer substrates lose these markers and express factors indicating differentiation.
- The findings suggest a new model to understand the molecular pathways influencing LESC behavior in response to substrate stiffness, which may help in researching how LESCs are affected after injuries that cause fibrosis.
Article Abstract
Recent studies have established that the phenotype of epithelial stem cells residing in the corneal periphery (the limbus) depends on this niche's distinct biomechanical properties. However, the signaling pathways underlying this dependency are still poorly understood. To address this issue, we investigated the effect of substrate stiffness on the migration, proliferation, and molecular phenotype of human limbal epithelial stem cells (LESCs). Specifically, we demonstrated that cells grown on collagen-based substrates with limbus-like compliance showed higher proliferation and stratification and lower migration capabilities, as well as higher levels of pro-proliferative markers Ki67 and β-Catenin, and LESC markers ΔNp63, ABCG2, and CK15. In contrast, cells on stiffer substrates lost these stem/progenitor cell markers, but instead expressed the key mechanotransduction factor YAP, as well as elevated levels of BMP4, a promotor of cell differentiation known to be negatively regulated by Wnt/β-Catenin signaling. This data allowed us to propose a new model that integrates the various molecular pathways involved in LESC response to substrate stiffness. This model will potentially be a useful guide to future research on the mechanisms underlying LESC loss following fibrosis-causing injuries.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6523807 | PMC |
| http://dx.doi.org/10.3390/cells8040347 | DOI Listing |
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