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  • In situ supramolecular assembly and modular modification of hyaluronic acid hydrogels for 3D cellular engineering.

In situ supramolecular assembly and modular modification of hyaluronic acid hydrogels for 3D cellular engineering.

ACS nano (2012-03-13)
Kyeng Min Park, Jeong-A Yang, Hyuntae Jung, Junseok Yeom, Ji Sun Park, Keun-Hong Park, Allan S Hoffman, Sei Kwang Hahn, Kimoon Kim
ABSTRACT

A facile in situ supramolecular assembly and modular modification of biocompatible hydrogels were demonstrated using cucurbit[6]uril-conjugated hyaluronic acid (CB[6]-HA), diaminohexane-conjugated HA (DAH-HA), and tags-CB[6] for cellular engineering applications. The strong and selective host-guest interaction between CB[6] and DAH made possible the supramolecular assembly of CB[6]/DAH-HA hydrogels in the presence of cells. Then, the 3D environment of CB[6]/DAH-HA hydrogels was modularly modified by the simple treatment with various multifunctional tags-CB[6]. Furthermore, we could confirm in situ formation of CB[6]/DAH-HA hydrogels under the skin of nude mice by sequential subcutaneous injections of CB[6]-HA and DAH-HA solutions. The fluorescence of modularly modified fluorescein isothiocyanate (FITC)-CB[6] in the hydrogels was maintained for up to 11 days, reflecting the feasibility to deliver the proper cues for cellular proliferation and differentiation in the body. Taken together, CB[6]/DAH-HA hydrogels might be successfully exploited as a 3D artificial extracellular matrix for various tissue engineering applications.

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Sigma-Aldrich
Cucurbit[6]uril hydrate, contains acid of crystalization