Thermoresponsive block copolymer brush for temperature-modulated hepatocyte separation.

Hepatic tissue engineering may be an effective approach for the treatment of liver disease; however, its practical application requires hepatic cell separation technologies that do not involve cell surface modification and maintain cell activity. In this study, we developed hepatocyte cell separation materials using a thermoresponsive polymer and a polymer with high affinity to hepatocytes. A block copolymer of poly(-vinylbenzyl--β-D-galactopyranosyl-(1→4)-D-gluconamide) (PVLA) and poly(-isopropylacrylamide) (PNIPAAm) [PVLA--PNIPAAm] was prepared through two steps of atom transfer radical polymerization.

Modification of exosomes with carbonate apatite and a glycan polymer improves transduction efficiency and target cell selectivity.

Exosomes are secreted from a variety of cells and transmit parental cell-derived biomolecules, such as nucleic acids and proteins, to recipient cells in distant organs. In addition to their important roles in both physiological and pathological conditions, exosomes are expected to serve as natural drug carriers without any cytotoxicity, immunogenicity, or tumorigenicity. However, the use of exosomes as drug delivery tools is limited due to the low uptake efficiency of the target cells, insufficient release of the contents from the endosome to the cytosol, and possible adverse effects caused by the delivery to non-target cells.

Direct visualization of the extracellular binding structure of E-cadherins in liquid.

E-cadherin is a key Ca-dependent cell adhesion molecule, which is expressed on many cell surfaces and involved in cell morphogenesis, embryonic development, EMT, etc. The fusion protein E-cad-Fc consists of the extracellular domain of E-cadherin and the IgG Fc domain. On plates coated with this chimeric protein, ES/iPS cells are cultivated particularly well and induced to differentiate.

An anti-oxidative cell culture dish inhibits intracellular reactive oxygen species accumulation and modulates pluripotency-associated gene expression in mesenchymal stem cells.

Maintenance of the pluripotent state of mesenchymal stem cells (MSCs) during in vitro expansion is an important factor for the successful proliferation of MSCs possessing high differentiation capacity. However, the differentiation potential of MSCs can easily be lost during in vitro expansion, particularly at late passages. Reactive oxygen species (ROS) are signaling molecules that help to maintain MSC function; however, excessive ROS generation can induce senescence and impair both the differentiation capacity and proliferation of MSCs.

Fabrication of 3D-culture platform with sandwich architecture for preserving liver-specific functions of hepatocytes using 3D bioprinter.

The development of new three-dimensional (3D) cell culture system that maintains the physiologically relevant signals of hepatocytes is essential in drug discovery and tissue engineering research. Conventional two-dimensional (2D) culture yields cell growth, proliferation, and differentiation. However, gene expression and signaling profiles can be different from in vivo environment.

High-molecular-weight poly(Gly-Val-Gly-Val-Pro) synthesis through microwave irradiation.

In this study, we synthesized a polypeptide from its pentapeptide unit using microwave irradiation. Effective methods for polypeptide synthesis from unit peptides have not been reported. Here, we used a key elastin peptide, H-GlyValGlyValPro-OH (GVGVP), as the monomer peptide.

Sugar-carrying Polystyrenes Facilitate Harvesting of APCs from MLRs: Possible Application of Sugar-carrying Polystyrenes to Immunotherapy.

Antigen-presenting cells (APCs) play a pivotal role in cancer immunotherapy. APCs in conventionally used flasks are harvested by enzymatic digestion or cell scraping for application to cancer immunotherapy. However, these methods may impair functional molecules expressed on the APC surface and reduce their effects in cancer immunotherapy.

Engulfment and clearance of apoptotic cells based on a GlcNAc-binding lectin-like property of surface vimentin.

The clearance of apoptotic cells is important to maintain tissue homeostasis. The engulfment of apoptotic cells is performed by professional phagocytes, such as macrophages, and also by non-professional phagocytes, such as mesenchymal cells. Here, we show that vimentin, a cytoskeletal protein, functions as an engulfment receptor on neighboring phagocytes, which recognize O-linked β-N-acetylglucosamine (O-GlcNAc)-modified proteins from apoptotic cells as "eat me" ligands.

Interactions of vimentin- or desmin-expressing liver cells with N-acetylglucosamine-bearing polymers.

It is necessary to develop highly functionalized liver cell culture systems for liver tissue engineering such as bioartificial livers and liver cell chips. To maintain a high level of hepatocyte function, well-organized patterning culture systems of hepatocytes and nonparenchymal cells would be advantageous. To design the patterning culture system using these cells, cell-recognizable polymers should be useful to regulate not only the hepatocytes, but also the nonparenchymal cells.

Cardiac differentiation of embryonic stem cells by substrate immobilization of insulin-like growth factor binding protein 4 with elastin-like polypeptides.

The establishment of cardiomyocyte differentiation of embryonic stem cells (ESCs) is a useful strategy for cardiovascular regenerative medicine. Here, we report a strategy for cardiomyocyte differentiation of ESCs using substrate immobilization of insulin-like growth factor binding protein 4 (IGFBP4) with elastin-like polypeptides. Recently, IGFBP4 was reported to promote cardiomyocyte differentiation of ESCs through inhibition of the Wnt/β-catenin signaling.

Modulation of cytochrome P450 gene expression in primary hepatocytes on various artificial extracellular matrices.

We studied effect of artificial extracellular matrices (ECMs), such as collagen I, poly (N-p-vinylbenzyl-4-O-β-D-galactopyranosyl-D-gluconamide)(PVLA) and E-cadherin-IgG Fc (E-cad-Fc) on hepatic metabolism to identify the mechanism of in vivo hepatocellular functional and metabolic integrity. mRNA expression of liver function marker, cytochrome P450 (CYP) and transporter genes in hepatocytes were compared among used ECMs using real-time RT-PCR. mRNA expressions of Cyp2c29 and Cyp2d22 among CYP genes in hepatocytes on PVLA were recovered after 3days due to enhanced liver-specific function by the spheroid formation of hepatocytes whereas mRNA expressions of CYP genes in hepatocytes on collagen and E-cad-Fc drastically decreased with time.

Targeting N-acetylglucosamine-bearing polymer-coated liposomes to vascular smooth muscle cells.

The targeted delivery of anti-inflammatory agents has great therapeutic potential for treating restenosis following percutaneous coronary intervention. To develop a drug delivery system targeted to injured blood vessels, we examined whether N-acetylglucosamine (GlcNAc)-bearing polymer-coated liposomes (GlcNAc-Ls) are specifically taken up by vascular smooth muscle cells (VSMCs). Flow cytometric analysis revealed that GlcNAc-Ls were taken up by VSMCs in vitro.

Gene delivery system based on highly specific recognition of surface-vimentin with N-acetylglucosamine immobilized polyethylenimine.

Gene and drug-delivery systems that use immobilization of carbohydrates are useful for the specific targeting of lectin-expressing tissues. Here, we report that N-acetylglucosamine (GlcNAc) with polyethylenimine (GlcNAc-PEI) specifically interacted with vimentin-expressing cells such as 293FT and HeLa cells. Recently, the intermediate filaments vimentin and desmin have been reported to have GlcNAc-binding lectin-like properties on the cell surface.

Vimentin and desmin possess GlcNAc-binding lectin-like properties on cell surfaces.

Vimentin and desmin are intermediate filament proteins found in various mesenchymal and skeletal muscle cells, respectively. These proteins play an important role in the stabilization of the cytoplasmic architecture. Here, we found, using artificial biomimicking glycopolymers, that vimentin and desmin possess N-acetylglucosamine (GlcNAc)-binding lectin-like properties on the cell surfaces of various vimentin- and desmin-expressing cells such as cardiomyocytes and vascular smooth muscle cells.

Regulation of cellular morphology using temperature-responsive hydrogel for integrin-mediated mechanical force stimulation.

A new culture substrate was developed for cells to be equibiaxially stretched using fibronectin (Fn)-immobilized temperature-responsive hydrogel. The cells cultured on the gel substrate were equibiaxially stretched with swelling of the gel, which was accompanied by slight changes of temperature. During gel swelling, changes of cell shape were clearly observed by optical microscopy because of high transparency of the gel.

Surface coating of bone marrow cells with N-acetylglucosamine for bone marrow implantation therapy.

Bone marrow implantation (BMI) has been performed clinically for the treatment of ischemic cardiovascular diseases. To achieve BMI effectively, accumulation of many bone marrow cells (BMCs) in an infarcted area of the myocardium is important. Previously, we reported that cardiomyocytes show strong interaction with N-acetylglucosamine (GlcNAc) and they can take up GlcNAc-conjugated liposomes.

Copolymers for hepatocyte-specific targeting carrying galactose and hydrophobic alkyl groups.

Core-forming hydrophobic alkyl groups were incorporated into amphiphilic PVLA to enhance the stability and inclusion ability of the homopolymeric micelles in water. The CAC and hepatocyte targeting in the synthesized P(VLA-co-VBH) were investigated in vitro. The CAC of the copolymers decreased and the stability of the copolymeric micelles increased with the incorporation of hydrophobic groups into the homopolymer.

Effective uptake of N-acetylglucosamine-conjugated liposomes by cardiomyocytes in vitro.

A drug delivery system (DDS) that targets the injured myocardium would serve as a novel therapeutic tool for cardiac diseases. To develop such a DDS, we investigated the interaction of 2 types of glycoside-conjugated liposomes containing a fluorescence substrate with cardiomyocytes. Flow cytometry revealed that cardiomyocytes adequately interact with N-acetylglucosamine-conjugated liposomes (GlcNAc-Ls).

Helical structure of sugar-carrying polystyrene in aqueous solution by circular dichroism.

Radical polymerization of N-p-vinylbenzyl-D-lactonamide (VLA) gave an optically active helical polymer. The stereoregularity of poly(N-p-vinylbenzyl-D-lactonamide) (PVLA) measured by 13C NMR spectroscopy showed a well-resolved sharp-line width, which was assigned to the phenyl C-1 carbon of the isotactic polystyrene (PS). The helical structure of PVLA shown by circular dichroism (CD) indicated that the aromatic groups were chirally supramolecular-packed giving optically active disaccharide units in the side chain covalently linked via an amide linkage with PS, the original PS not being optically active.

Galactosylated alginate as a scaffold for hepatocytes entrapment.

Galactose moieties were covalently coupled with alginate through ethylenediamine as the spacer for enhancing the interaction of hepatocytes with alginate. Adhesion of hepatocytes onto the galactosylated alginate (GA)-coated polystyrene (PS) surface showed an 18-fold increase as compared with that of the alginate-coated surface and it increased with an increase in the concentration of GA. The morphologies of attached hepatocytes were observed to spread out at the 0.