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Click-crosslinkable and photodegradable gelatin hydrogels for cytocompatible optical cell manipulation in natural environment.


ABSTRACT: This paper describes the generation of "click-crosslinkable" and "photodegaradable" gelatin hydrogels from the reaction between dibenzocycloctyl-terminated photoclevable tetra-arm polyethylene glycol and azide-modified gelatin. The hydrogels were formed in 30?min through the click-crosslinking reaction. The micropatterned features in the hydrogels were created by micropatterned light irradiation; the minimum resolution of micropatterning was 10-?m widths for line patterns and 20-?m diameters for circle patterns. Cells were successfully encapsulated in the hydrogels without any loss of viability across a wide concentration range of crosslinker. In contrast, an activated-ester-type photocleavable crosslinker, which we previously used to prepare photodegradable gelatin hydrogels, induced a decrease in cell viability at crosslinker concentrations greater than 1.8?mM. We also observed morphology alteration and better growth of cancer cells in the click-crosslinked photodegradable gelatin hydrogels that included matrigel than in the absence of matrigel. We also demonstrated micropatterning of the hydrogels encapsulating cells and optical cell separation. Both of the cells that remained in the non-irradiated area and the cells collected from the irradiated area maintained their viability.

SUBMITTER: Tamura M 

PROVIDER: S-EPMC4598855 | biostudies-other | 2015

REPOSITORIES: biostudies-other

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Click-crosslinkable and photodegradable gelatin hydrogels for cytocompatible optical cell manipulation in natural environment.

Tamura Masato M   Yanagawa Fumiki F   Sugiura Shinji S   Takagi Toshiyuki T   Sumaru Kimio K   Kanamori Toshiyuki T  

Scientific reports 20151009


This paper describes the generation of "click-crosslinkable" and "photodegaradable" gelatin hydrogels from the reaction between dibenzocycloctyl-terminated photoclevable tetra-arm polyethylene glycol and azide-modified gelatin. The hydrogels were formed in 30 min through the click-crosslinking reaction. The micropatterned features in the hydrogels were created by micropatterned light irradiation; the minimum resolution of micropatterning was 10-μm widths for line patterns and 20-μm diameters for  ...[more]

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