Substrate Elasticity Governs Differentiation of Renal Tubule Cells in Prolonged Culture.
| Citation | . “Substrate Elasticity Governs Differentiation Of Renal Tubule Cells In Prolonged Culture.”. Tissue Engineering. Part A, pp. 1013-1022. |
| Center | Vanderbilt University |
| Author | Harold D Love, Mingfang Ao, Seiver Jorgensen, Lindsey Swearingen, Nicholas Ferrell, Rachel Evans, Leslie Gewin, Raymond C Harris, Roy Zent, Shuvo Roy, William H Fissell |
| Keywords | NHE3, matrix elasticity, renal tubule cell |
| Abstract |
IMPACT STATEMENT: Successful clinical tissue engineering requires functional fidelity of the cultured cell to its counterpart, but this has been elusive in renal tissue engineering. Typically, renal proximal tubule cells in culture have a flattened morphology and do not express key transporters essential to their function. In this article, we show for the first time that substrate mechanical properties dictate differentiation of cultured renal proximal tubule cells. Remarkably, this effect was only discernable after 4 weeks in culture, longer than usually reported for this cell type. These results demonstrate a new tunable parameter to optimize cell differentiation in renal tissue engineering. |
| Year of Publication |
2019
|
| Journal |
Tissue engineering. Part A
|
| Volume |
25
|
| Issue |
13-14
|
| Number of Pages |
1013-1022
|
| Date Published |
12/2019
|
| ISSN Number |
1937-335X
|
| DOI |
10.1089/ten.TEA.2018.0182
|
| Alternate Journal |
Tissue Eng Part A
|
| PMID |
30484388
|
| PMCID |
PMC6648172
|
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