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Mimicking the topography of the epidermal-dermal interface with elastomer substrates

Mimicking the topography of the epidermal-dermal interface with elastomer substrates
Mimicking the topography of the epidermal-dermal interface with elastomer substrates

In human skin the interface between the epidermis and dermis is not flat, but undulates. The dimensions of the undulations change as a function of age and disease. Epidermal stem cell clusters lie in specific locations relative to the undulations; however, whether their location affects their properties is unknown. To explore this, we developed a two-step protocol to create patterned substrates that mimic the topographical features of the human epidermal-dermal interface. Substrates with negative patterns were first fabricated by exposing a photocurable formulation to light, controlling the topographical features (such as diameter, height and center-to-center distance) by the photomask pattern dimensions and UV crosslinking time. The negative pattern was then translated to PDMS elastomer to fabricate substrates with 8 unique surface topographies on which primary human keratinocytes were cultured. We found that cells were patterned according to topography, and that separate cues determined the locations of stem cells, differentiated cells and proliferating cells. The biomimetic platform we have developed will be useful for probing the effect of topography on stem cell behaviour.

Biomimetic Materials/chemistry, Cell Differentiation/physiology, Cell Proliferation/physiology, Cells, Cultured, Coculture Techniques/methods, Dermis/cytology, Elastomers/chemistry, Epidermal Cells, Epidermis/physiology, Humans, Materials Testing, Molecular Imprinting/methods, Stem Cells/cytology, Surface Properties
1757-9708
21-29
Viswanathan, Priyalakshmi
c9557af0-cc27-49ec-b7bf-38e3993bd432
Guvendiren, Murat
df60a61c-d94c-46ae-85bf-800634723e9d
Chua, Wesley
a633719b-8130-4fc2-9396-7010028db5fa
Telerman, Stephanie B.
f77c688c-eef4-4e36-8387-3483ec324cb1
Liakath-Ali, Kifayathullah
8d5a020c-e976-4901-9195-68f4bc0de74e
Burdick, Jason A.
ec337a56-495f-4cb4-b324-5c6b34061ef9
Watt, Fiona M.
24fff937-94b0-4127-8cbb-e8bd6e01fa29
Viswanathan, Priyalakshmi
c9557af0-cc27-49ec-b7bf-38e3993bd432
Guvendiren, Murat
df60a61c-d94c-46ae-85bf-800634723e9d
Chua, Wesley
a633719b-8130-4fc2-9396-7010028db5fa
Telerman, Stephanie B.
f77c688c-eef4-4e36-8387-3483ec324cb1
Liakath-Ali, Kifayathullah
8d5a020c-e976-4901-9195-68f4bc0de74e
Burdick, Jason A.
ec337a56-495f-4cb4-b324-5c6b34061ef9
Watt, Fiona M.
24fff937-94b0-4127-8cbb-e8bd6e01fa29

Viswanathan, Priyalakshmi, Guvendiren, Murat, Chua, Wesley, Telerman, Stephanie B., Liakath-Ali, Kifayathullah, Burdick, Jason A. and Watt, Fiona M. (2015) Mimicking the topography of the epidermal-dermal interface with elastomer substrates. Integrative Biology, 8 (1), 21-29. (doi:10.1039/c5ib00238a).

Record type: Article

Abstract

In human skin the interface between the epidermis and dermis is not flat, but undulates. The dimensions of the undulations change as a function of age and disease. Epidermal stem cell clusters lie in specific locations relative to the undulations; however, whether their location affects their properties is unknown. To explore this, we developed a two-step protocol to create patterned substrates that mimic the topographical features of the human epidermal-dermal interface. Substrates with negative patterns were first fabricated by exposing a photocurable formulation to light, controlling the topographical features (such as diameter, height and center-to-center distance) by the photomask pattern dimensions and UV crosslinking time. The negative pattern was then translated to PDMS elastomer to fabricate substrates with 8 unique surface topographies on which primary human keratinocytes were cultured. We found that cells were patterned according to topography, and that separate cues determined the locations of stem cells, differentiated cells and proliferating cells. The biomimetic platform we have developed will be useful for probing the effect of topography on stem cell behaviour.

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More information

Accepted/In Press date: 19 November 2015
Published date: 11 December 2015
Additional Information: Correction notice: a correction has been published: Integrative Biology, Volume 16, 2024, zyae004, https://doi.org/10.1093/intbio/zyae004
Related URLs:
Keywords: Biomimetic Materials/chemistry, Cell Differentiation/physiology, Cell Proliferation/physiology, Cells, Cultured, Coculture Techniques/methods, Dermis/cytology, Elastomers/chemistry, Epidermal Cells, Epidermis/physiology, Humans, Materials Testing, Molecular Imprinting/methods, Stem Cells/cytology, Surface Properties

Identifiers

Local EPrints ID: 490883
URI: http://eprints.soton.ac.uk/id/eprint/490883
DOI: doi:10.1039/c5ib00238a
ISSN: 1757-9708
PURE UUID: 717a6e57-78e4-4a17-b9d2-14389e9aecd4
ORCID for Kifayathullah Liakath-Ali: ORCID iD orcid.org/0000-0001-9047-7424

Catalogue record

Date deposited: 07 Jun 2024 16:52
Last modified: 08 Jun 2024 02:11

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Contributors

Author: Priyalakshmi Viswanathan
Author: Murat Guvendiren
Author: Wesley Chua
Author: Stephanie B. Telerman
Author: Kifayathullah Liakath-Ali ORCID iD
Author: Jason A. Burdick
Author: Fiona M. Watt

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