Guided three-dimensional growth of functional cardiomyocytes on polyethylene glycol nanostructures

Authors
Kim, Deok-HoKim, PilnamSong, InseonCha, Jae MinLee, Sang HoKim, ByungkyuSuh, Kahp Y.
Issue Date
2006-06-06
Publisher
AMER CHEMICAL SOC
Citation
LANGMUIR, v.22, no.12, pp.5419 - 5426
Abstract
We introduce well-defined nanopillar arrays of a poly(ethylene glycol) ( PEG) hydrogel as a cell culture platform to guide a 3D construct of primary rat cardiomyocytes in vitro for potential tissue engineering applications. Ultraviolet (UV)-assisted capillary lithography was used to fabricate highly uniform similar to 150 nm PEG pillars with similar to 400 nm height. It was found that cell adhesion was significantly enhanced on PEG nanopillars (132 +/- 29 cells/mm(2)) compared to that on the bare PEG control (39 +/- 17 cells/mm(2)) (p < 0.05) but substantially reduced compared to that on the glass control (502 +/- 45 cells/mm(2)) (p < 0.01). Furthermore, in colonizing cardiomyocytes, the nanopillars stimulated self-assembled aggregates among the contacting cells with 3D growth, which is a unique feature for nanopatterned PEG hydrogels as a cell culture substrate. The 3D-grown cardiomyocytes retained their conductive and contractile properties, as evidenced by the observation of beating cardiomyocytes with robust action potential generation.
Keywords
POLY(ETHYLENE GLYCOL); PROTEIN ADSORPTION; CELL ADHESIVE; HYDROGELS; TOPOGRAPHY; MORPHOLOGY; SURFACES; SCAFFOLD; NANOTOPOGRAPHY; FABRICATION; POLY(ETHYLENE GLYCOL); PROTEIN ADSORPTION; CELL ADHESIVE; HYDROGELS; TOPOGRAPHY; MORPHOLOGY; SURFACES; SCAFFOLD; NANOTOPOGRAPHY; FABRICATION
ISSN
0743-7463
URI
https://pubs.kist.re.kr/handle/201004/135404
DOI
10.1021/la060283u
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KIST Article > 2006
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