Durotaxis behavior of bEnd.3 cells on soft substrate with patterned platinum nanoparticle array
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Durotaxis behavior of bEnd.3 ...
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Affiliation
Changchun University of Science and TechnologyUniversity of Bedfordshire
Tianjin University
Issue Date
2020-11-17Subjects
PtNPscell durotaxis
cell coupling model
nanotransfer printing methods
Subject Categories::J510 Materials Technology
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The directional arrangement of cells has crucial effect in tissue engineering fields such as wound healing and scar repair. Studies have shown that continuous nanostructures have directional regulatory effect on cells, but whether discontinuous nanostructures have the same regulatory effect on cells is also worthy of further study. Here, a series of discontinuous platinum nanoparticles (PtNPs) patterned on the surface of PDMS (PtNPs-PDMS&Glass) and glass (PtNPs-Glass) substrates were developed to investigate the effect on bEnd.3 cell durotaxis. The laser interference lithography and nanotransfer printing method were employed to fabricate the substrates. It was found that about 80% cells orderly arranged on the PtNPs-PDMS&Glass substrate, but only 20% cells orderly arrangement on the PtNPs-Glass substrate, and the number of cells on the PtNPs-PDMS&Glass substrate was five times more than that on the PDMS coated glass substrate (PDMS&Glass). The results suggested that patterning PtNPs on the PDMS substrate not only provided the topographical guidance for cells just like continuous nanostructures, but also promoted cell adhesion and growth. In addition, an improved whole cell coupling model was used to investigate and explain the cell durotaxis from the perspective of mechanism. These findings show the possibility of discontinuous nanostructures in regulating cell arrangement, and offer a useful method for the design of biological functional substrate, as well as help to understand the mechanism of cell durotaxis.Citation
Wu X, Li L, Lei Z, Yang F, Liu R, Wang L, Zhu X, Wang Z (2020) 'Durotaxis behavior of bEnd.3 cells on soft substrate with patterned platinum nanoparticle array', Applied Nanoscience, 11, pp.611-620 .Publisher
Springer Science and Business MediaJournal
Applied NanoscienceAdditional Links
https://link.springer.com/article/10.1007/s13204-020-01618-1Type
ArticleLanguage
enISSN
2190-5509EISSN
2190-5517ae974a485f413a2113503eed53cd6c53
10.1007/s13204-020-01618-1
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