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Squishy matters – Corneal mechanobiology in health and disease

Sara M. Thomasy, Brian C. Leonard, Mark A. Greiner, Jessica M. Skeie, Vijay Krishna Raghunathan

2024Progress in Retinal and Eye Research44 citationsDOIOpen Access PDF

Abstract

The cornea, as a dynamic and responsive tissue, constantly interacts with mechanical forces in order to maintain its structural integrity, barrier function, transparency and refractive power. Cells within the cornea sense and respond to various mechanical forces that fundamentally regulate their morphology and fate in development, homeostasis and pathophysiology. Corneal cells also dynamically regulate their extracellular matrix (ECM) with ensuing cell-ECM crosstalk as the matrix serves as a dynamic signaling reservoir providing biophysical and biochemical cues to corneal cells. Here we provide an overview of mechanotransduction signaling pathways then delve into the recent advances in corneal mechanobiology, focusing on the interplay between mechanical forces and responses of the corneal epithelial, stromal, and endothelial cells. We also identify species-specific differences in corneal biomechanics and mechanotransduction to facilitate identification of optimal animal models to study corneal wound healing, disease, and novel therapeutic interventions. Finally, we identify key knowledge gaps and therapeutic opportunities in corneal mechanobiology that are pressing for the research community to address especially pertinent within the domains of limbal stem cell deficiency, keratoconus and Fuchs' endothelial corneal dystrophy. By furthering our understanding corneal mechanobiology, we can contextualize discoveries regarding corneal diseases as well as innovative treatments for them.

Topics & Concepts

MechanobiologyMechanotransductionCorneaExtracellular matrixKeratoconusCrosstalkCell biologyBiologyNeuroscienceOpticsPhysicsCorneal surgery and disordersOcular Surface and Contact LensCorneal Surgery and Treatments
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