Epithelial contact guidance on well-defined micro- and nanostructured substrates

doi:10.1242/jcs.00383

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doi: 10.1242/10.1242/jcs.00383

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Journal of Cell Science 116, 1881-1892 (2003)
doi: 10.1242/jcs.00383

Research Article

Epithelial contact guidance on well-defined micro- and nanostructured substrates

Ana I. Teixeira¹, George A. Abrams², Paul J. Bertics³, Christopher J. Murphy²^,*^, and Paul F. Nealey¹^,*^,

^¹ Department of Chemical Engineering, School of Veterinary Medicine, University of Wisconsin, Madison, WI 53706, USA
^² Department of Surgical Sciences, School of Veterinary Medicine, University of Wisconsin, Madison, WI 53706, USA
^³ Department of Biomolecular Chemistry, School of Medicine, University of Wisconsin, Madison, WI 53706, USA

Authors for correspondence (e-mail: nealey{at}engr.wisc.edu, murphyc{at}svm.vetmed.wisc.edu)

Accepted 21 January 2003

The human corneal basement membrane has a rich felt-like surfacetopography with feature dimensions between 20 nm and 200 nm.On the basis of these findings, we designed lithographicallydefined substrates to investigate whether nanotopography isa relevant stimulus for human corneal epithelial cells. We foundthat cells elongated and aligned along patterns of grooves and ridgeswith feature dimensions as small as 70 nm, whereas on smooth substrates,cells were mostly round. The percentage of aligned cells was constanton substrate tomographies with lateral dimensions ranging fromthe nano- to the micronscale, and increased with groove depth.The presence of serum in the culture medium resulted in a largerpercentage of cells aligning along the topographic patternsthan when no serum was added to the basal medium. When present,actin microfilaments and focal adhesions were aligned alongthe substrate topographies. The width of the focal adhesionswas determined by the width of the ridges in the underlyingsubstrate.

This work documents that biologic length-scale topographic featuresthat model features encountered in the native basement membranecan profoundly affect epithelial cell behavior.

Key words: Cell-substrate interactions, Substrate topography, Grooves and ridges, Contact guidance, Focal adhesions, Nanobiology

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