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Silk films with nanotopography and extracellular proteins enhance corneal epithelial wound healing

Yuncin Luo, Kai B. Kang, Rachel Sartaj, Michael Sun, Qiang Zhou, Victor H. Guaiquil, Mark I. Rosenblatt

2021Scientific Reports29 citationsDOIOpen Access PDF

Abstract

Corneal wound healing depends on extracellular matrix (ECM) and topographical cues that modulate migration and proliferation of regenerating cells. In our study, silk films with either flat or nanotopography patterned parallel ridge widths of 2000, 1000, 800 nm surfaces were combined with ECMs which include collagen type I (collagen I), fibronectin, laminin, and Poly-D-Lysine to accelerate corneal wound healing. Silk films with 800 nm ridge width provided better cell spreading and wound recovery than other size topographies. Coating 800 nm patterned silk films with collagen I proves to optimally further increased mouse and rabbit corneal epithelial cells growth and wound recovery. This enhanced cellular response correlated with redistribution and increase in size and total amount of focal adhesion. Transcriptomics and signaling pathway analysis suggested that silk topography regulates cell behaviors via actin nucleation ARP-WASP complex pathway, which regulate filopodia formation. This mechanism was further explored and inhibition of Cdc42, a key protein in this pathway, delayed wound healing and decreased the length, density, and alignment of filopodia. Inhibition of Cdc42 in vivo resulted in delayed re-epithelization of injured corneas. We conclude that silk film nanotopography in combination with collagen I constitutes a better substrate for corneal wound repair than either nanotopography or ECM alone.

Topics & Concepts

NanotopographyFibronectinWound healingFilopodiaCell biologyCDC42Extracellular matrixSILKChemistryFocal adhesionCell adhesionMaterials scienceCellBiologySignal transductionActinImmunologyBiochemistryComposite materialSilk-based biomaterials and applicationsAntimicrobial Peptides and ActivitiesCorneal Surgery and Treatments
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