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| Title: |
Differential regulation of morphology and stemness of mouse embryonic stem cells by substrate stiffness and topography |
| First author: |
Lü Dongyuan;Luo Chunhua;Zhang Chen;Li Zhan;Long Mian |
| Abstract: |
The maintenance of stem cell pluripotency or stemness is crucial to embryonic development and differentiation. The mechanical or physical microenvironment of stem cells, which includes extracellular matrix stiffness and topography, regulates cell morphology and stemness. Although a growing body of evidence has shown the importance of these factors in stem cell differentiation, the impact of these biophysical or biomechanical regulators remains insufficiently characterized. In the present study, we applied a micro-fabricated polyacrylamide hydrogel substrate with two elasticities and three topographies to systematically test the morphology, proliferation, and stemness of mESCs. The independent or combined impact of the two factors on specific cell functions was analyzed. Cells are able to grow effectively on both polystyrene and polyacrylamide substrates in the absence of feeder cells. Substrate stiffness is predominant in preserving stemness by enhancing Oct-4 and Nanog expression on a soft polyacrylamide substrate. Topography is also a critical factor for manipulating stemness via the formation of a relatively flattened colony on a groove or pillar substrate and a spheroid colony on a hexagonal substrate. Although topography is less effective on soft substrates, it plays a role in retaining cell stemness on stiff, hexagonal or pillar-shaped substrates. mESCs also form, in a timely manner, a 3D structure on groove or hexagonal substrates. These results further the understanding of stem cell morphology and stemness in a microenvironment that mimics physiological conditions.
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| Contact the author: |
Long Mian |
| Page number: |
3945-3955 |
| Issue: |
13 |
| Subject: |
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| Authors units: |
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| PubYear: |
2014 |
| Volume: |
35 |
| Unit code: |
115111 |
| Publication name: |
BIOMATERIALS |
| The full text link: |
http://dx.doi.org/10.1016/j.biomaterials.2014.01.066 |
| Full papers: |
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| Departmens of first author: |
NML |
| Paper source: |
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| Paper type: |
AK |
| Participation of the author: |
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| ISSN: |
0142-9612 |
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