On/off switchable physical stimuli regulate the future direction of adherent cellular fate
- Authors
- Jun, Indong; Han, Hyung-Seop; Lee, Jae Won; Lee, Kyungwoo; Kim, Yu-Chan; Ok, Myoung-Ryul; Seok, Hyun-Kwang; Kim, Young Jun; Song, In-Seok; Shin, Heungsoo; Edwards, James R.; Lee, Kuen Yong; Jeon, Hojeong
- Issue Date
- 2021-07-21
- Publisher
- ROYAL SOC CHEMISTRY
- Citation
- JOURNAL OF MATERIALS CHEMISTRY B, v.9, no.27, pp.5560 - 5571
- Abstract
- The utilization of cell-manipulating techniques reveals information about biological behaviors suited to address a wide range of questions in the field of life sciences. Here, we introduced an on/off switchable physical stimuli technique that offers precise stimuli for reversible cell patterning to allow regulation of the future direction of adherent cellular behavior by leveraging enzymatically degradable alginate hydrogels with defined chemistry and topography. As a proof of concept, targeted muscle cells adherent to TCP exhibited a reshaped structure when the hydrogel-based physical stimuli were applied. This simple tool offers easy manipulation of adherent cells to reshape their morphology and to influence future direction depending on the characteristics of the hydrogel without limitations of time and space. The findings from this study are broadly applicable to investigations into the relationships between cells and physiological extracellular matrix environments as well as has potential to open new horizons for regenerative medicine with manipulated cells.
- Keywords
- SKELETAL-MUSCLE TISSUE; MATRIX STIFFNESS; IN-VIVO; HYDROGELS; DIFFERENTIATION; BIOMATERIALS; ADHESION; ACTIVATION; EXPRESSION; STRATEGIES; SKELETAL-MUSCLE TISSUE; MATRIX STIFFNESS; IN-VIVO; HYDROGELS; DIFFERENTIATION; BIOMATERIALS; ADHESION; ACTIVATION; EXPRESSION; STRATEGIES; alginate hydrogel; micro patterning; physical stimuli; cell-manipulating techniques; direct contact pressing
- ISSN
- 2050-7518
- URI
- https://pubs.kist.re.kr/handle/201004/116683
- DOI
- 10.1039/d1tb00908g
- Appears in Collections:
- KIST Article > 2021
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