Sung Ching Chen scite author profile

In this study, a novel yet simple method, using a thermoreversible hydrogel system coated on tissue culture polystyrene (TCPS) dishes, was developed for harvesting living cell sheets. The hydrogel system was prepared by simply pouring aqueous methylcellulose (MC) solutions blended with distinct salts on TCPS dishes at 20 degrees C. For the applications to cell culture, only those aqueous MC compositions that may form a gel at 37 degrees C were chosen for the study. It was found that the hydrogel coating composed of 8% MC blended with 10 g/L PBS (phosphate buffered saline) (the MC/PBS hydrogel, with a gelation temperature of approximately 25 degrees C) stayed intact throughout the entire course of cell culture. To improve cell attachments, the MC/PBS hydrogel at 37 degrees C was evenly spread with a neutral aqueous collagen at 4 degrees C. The spread aqueous collagen gradually reconstituted with time and thus formed a thin layer of collagen (the MC/PBS/collagen hydrogel). After cells reached confluence, a continuous monolayer cell sheet formed on the surface of the MC/PBS/collagen hydrogel. When the grown cell sheet was placed outside of the incubator at 20 degrees C, it detached gradually from the surface of the thermoreversible hydrogel spontaneously, without treating with any enzymes. The results obtained in the MTT assay demonstrated that the cells cultured on the surface of the MC/PBS/collagen hydrogel had an even better activity than those cultured on an uncoated TCPS dish. After harvesting the detached cell sheet, the remaining viscous hydrogel system is reusable. Additionally, the developed hydrogel system can be used for culturing a multilayer cell sheet. The obtained living cell sheets may be used for tissue reconstructions.

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Paclitaxel-Loaded Poly(γ-glutamic acid)-poly(lactide) Nanoparticles as a Targeted Drug Delivery System against Cultured HepG2 Cells

Liang

Chen

et al. 2006

Bioconjugate Chem.

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The study was to develop paclitaxel-loaded formulations using a novel type of self-assembled nanoparticles that was composed of block copolymers synthesized from poly(gamma-glutamic acid) and poly(lactide) via a simple coupling reaction. The nanoparticles (the NPs) were prepared with various feed weight ratios of paclitaxel to block copolymer (the P/BC ratio). The morphology of all prepared nanoparticles was spherical and the surfaces were smooth. Increasing the P/BC ratio significantly increased the drug loading content of the prepared nanoparticles, but remarkably reduced the drug loading efficiency. The release rate of paclitaxel from the NPs decreased significantly as the P/BC ratio increased. For the potential of targeting liver cancer cells, galactosamine was further conjugated on the prepared nanoparticles (the Gal-NPs) as a targeting moiety. It was found that the activity in inhibiting the growth of HepG2 cells (a liver cancer cell line) by the Gal-NPs was comparable to that of a clinically available paclitaxel formulation, while the NPs displayed a significantly less activity. This may be attributed to the fact that the Gal-NPs had a specific interaction with HepG2 cells via ligand-receptor recognition. Cells treated with distinct paclitaxel formulations resulted in arrest in the G2/M phase. The arrest of cells in the G2/M phase was highly suggestive of interference by paclitaxel with spindle formation and was consistent with the morphological findings presented herein. In conclusion, the active targeting nature of the Gal-NPs prepared in the study may be used as a potential drug delivery system for the targeted delivery to liver cancers.

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Sung Ching Chen

A novel pH-sensitive hydrogel composed of N,O-carboxymethyl chitosan and alginate cross-linked by genipin for protein drug delivery

Paclitaxel-loaded poly(γ-glutamic acid)-poly(lactide) nanoparticles as a targeted drug delivery system for the treatment of liver cancer

Novel Living Cell Sheet Harvest System Composed of Thermoreversible Methylcellulose Hydrogels

Paclitaxel-Loaded Poly(γ-glutamic acid)-poly(lactide) Nanoparticles as a Targeted Drug Delivery System against Cultured HepG2 Cells

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