Your search keyword '"Tamada, Y."' showing total 9 results

1. Chemical modification of silk fibroin with 2-methacryloyloxyethyl phosphorylcholine. II. Graft-polymerization onto fabric through 2-methacryloyloxyethyl isocyanate and interaction between fabric and platelets

Author

Furuzono, T, Ishihara, K, Nakabayashi, N, and Tamada, Y

Published

2000

2. Anticoagulant effects of sulphonated polyisoprenes

Author

Tamada, Y., Murata, M., Makino, K., Yoshida, Y., Yoshida, T., and Hayashi, T.

Published

1998

3. Simple method for platelet counting

Author

Tamada, Y., Kulik, E. A., and Ikada, Y.

Published

1995

4. Effects of RGDS sequence genetically interfused in the silk fibroin light chain protein on chondrocyte adhesion and cartilage synthesis.

Author

Kambe Y, Yamamoto K, Kojima K, Tamada Y, and Tomita N

Subjects

Actins metabolism, Animals, Animals, Genetically Modified, Bombyx, Cartilage drug effects, Cartilage metabolism, Cells, Cultured, Fibroins adverse effects, Fibroins chemistry, Fibroins genetics, Fluorescent Antibody Technique, Microscopy, Electron, Scanning, Oligopeptides genetics, Oligopeptides pharmacology, Polymerase Chain Reaction, Rabbits, Vinculin metabolism, Cartilage cytology, Cell Adhesion drug effects, Chondrocytes cytology, Chondrocytes drug effects, Fibroins metabolism, Oligopeptides metabolism

Abstract

Initial chondrocyte-silk fibroin interactions are implicated in chondrogenesis when using fibroin as a scaffold for chondrocytes. Here, we focused on integrin-mediated cell-scaffold adhesion and prepared cell adhesive fibroin in which a tandem repeat of the Arg-Gly-Asp-Ser (RGDS) sequence was genetically interfused in the fibroin light chain (L-chain) (L-RGDSx2 fibroin). We investigated the effects of the sequence on chondrocyte adhesion and cartilage synthesis, in comparison to the effects of fibronectin. As the physicochemical surface properties (e.g., wettability and zeta potential) of the fibroin substrate were not affected by the modification, specific cell adhesion to the RGDS predominately changed the chondrocyte adhesive state. This suggestion was also supported by the competitive inhibition of chondrocyte attachment to the L-RGDSx2 fibroin substrate with soluble RGD peptides in the medium. Unlike fibronectin, the expression of RGDS in the fibroin L-chain had no effect on chondrocyte spreading area but enhanced mRNA expression levels of integrins alpha5 and beta1, and aggrecan at 12 h after seeding. Although both the sequence and fibronectin increased cell adhesive force, chondrocytes grown on the fibroin substrate exhibited a peak in the force with time in culture. These results suggested that moderate chondrocyte adhesion to fibroin induced by the RGDS sequence was able to maintain the chondrogenic phenotype and, from the histology findings, the sequence could facilitate chondrogenesis., (2010 Elsevier Ltd. All rights reserved.)

Published

2010

5. Time-dependent changes in adhesive force between chondrocytes and silk fibroin substrate.

Author

Yamamoto K, Tomita N, Fukuda Y, Suzuki S, Igarashi N, Suguro T, and Tamada Y

Subjects

Animals, Biocompatible Materials chemistry, Biocompatible Materials pharmacology, Cell Adhesion drug effects, Cell Movement drug effects, Cells, Cultured, Chondrocytes drug effects, Materials Testing, Rabbits, Stress, Mechanical, Time Factors, Chondrocytes cytology, Chondrocytes physiology, Fibroins chemistry, Fibroins pharmacology

Abstract

In tissue engineering for cartilage repair using scaffold, initial chondrocyte-material interactions are significantly important for the following cell behaviors such as phenotypic expression and matrix synthesis. Silk fibroin scaffold is considered to be one of the useful materials in/on which chondrocytes can proliferate without dedifferentiating into fibroblast-like cells and can organize a hyaline-like tissue. For the purpose of seeking some useful aspects for designing scaffold, initial adhesive force of chondrocytes to the surface of fibroin substrate was measured by using a lab-made apparatus applying the cantilever beam method. It was found that the adhesive force per unit spreading area of chondrocytes on fibroin substrate had a clear peak between 6 and 12h after seeding. From the results of immunofluorescence staining for actin and vinculin during this period, it could be thought that an immature formation of actin fibers which was uniquely observed at the periphery of cells attaching to fibroin substrate did not contribute to the increase of adhesive force. Results in this study suggested that surface of the fibroin substrate was gradually covered with some substances which inhibit the adhesion during this period. These cell-material interactions have a possibility to be useful information for designing the adhesive performance of scaffold surface in cartilage regeneration.

Published

2007

6. Sulfation of silk fibroin by chlorosulfonic acid and the anticoagulant activity.

Author

Tamada Y

Subjects

Amino Acids chemistry, Animals, Blood Coagulation drug effects, Bombyx, Chromatography, Crystallography, X-Ray, Dose-Response Relationship, Drug, Humans, Magnetic Resonance Spectroscopy, Pyridines chemistry, Silk, Spectroscopy, Fourier Transform Infrared, Sulfates chemistry, Time Factors, Anticoagulants pharmacology, Fibroins chemistry, Insect Proteins chemistry, Sulfonic Acids chemistry

Abstract

Silk fibroin (Bombyx mori) was sulfated using chlorosulfonic acid in pyridine. FT-IR spectra showed introduction of sulfate group by this reaction; NMR spectra indicated that sulfation occurred mainly at tyrosine and serine residues. Molecular size decreased and dispersed with sulfation. The molecular weight was estimated in around 20,000 by GPC using protein standards. Amino acid composition suggested that sulfated fibroin came from H-chain of fibroin; the crystal region of fibroin molecule remained in sulfated fibroin. The amount of sulfate groups increased with overall reaction time. The maximum amount was estimated in 1.0 mmol/g by acidimetric titration. Sulfation efficiency was calculated as 66.7%. Blood coagulation was prevented by 0.5 mg of sulfated fibroin in 1 ml of blood, while original fibroin did not show any effect. Anticoagulant activity of sulfated fibroin strongly depends on the amount of sulfate groups introduced. These results indicate that sulfate group introduction results in addition of anticoagulant function to silk fibroin. Sulfated fibroin is a new type of anticoagulant material having a protein backbone.

Published

2004

7. Anticoagulant mechanism of sulfonated polyisoprenes.

Author

Tamada Y, Murata M, Hayashi T, and Goto K

Subjects

Dose-Response Relationship, Drug, Factor IX metabolism, Factor V metabolism, Factor VII metabolism, Factor X metabolism, Factor XI metabolism, Fibrin chemistry, Fibrinogen chemistry, Fibrinopeptide A chemistry, Humans, Peptides chemistry, Polymers chemistry, Prothrombin metabolism, Thrombin chemistry, Anticoagulants pharmacology, Polyethylenes chemistry, Sulfones metabolism

Abstract

The influence of sulfonated polyisoprene (SPIP) on coagulation factors and human blood cells was investigated to elucidate and compare its anticoagulant mechanism with that of heparin. While the number of red cells was unaffected, the number of platelets decreased dramatically in the presence of SPIP due to aggregation. Using a synthetic peptide substrate to assay thrombin activity in the presence of its natural inhibitor, antithrombin (AT), we observed no stimulation by SPIP of AT-mediated inhibition. Nevertheless, thrombin cleavage of its natural substrate fibrinogen to fibrin peptide A was slightly inhibited. SPIP altered the electrophoretic mobility of fibrinogen and completely inhibited fibrinogen from clotting. We detected no significant influence of SPIP on factors II, VII, IX, and X, while factor XI and factors V and VIII were only slightly affected. Therefore, the main mechanism of SPIP's anticoagulant activity appears to be a strong interaction with fibrinogen and fibrin monomer, first, to prevent proteolytic conversion of the former to the latter and second, to inhibit polymerization of the fibrin monomer, once formed.

Published

2002

8. Cell behaviour on polymer surfaces grafted with non-ionic and ionic monomers.

Author

Kishida A, Iwata H, Tamada Y, and Ikada Y

Subjects

Acrylic Resins chemistry, Adsorption, Cell Adhesion, Cell Division, Electrochemistry, Humans, Ions, Serum Albumin, Bovine chemistry, Surface Properties, HeLa Cells cytology, Polyethylenes chemistry

Abstract

Following exposure to corona discharge, a polyethylene film was graft polymerized with different water-soluble monomers such as acrylamide (non-ionic), acrylic acid (anionic), 2-acrylamide-2-methyl propane sulphonic acid (anionic), styrene sulphonic acid sodium salt (anionic) and N,N-dimethylaminopropyl acrylamide (cationic). Attachment and proliferation of HeLa S3 cells were studied for grafted surfaces with different zeta potentials and contact angles. The polyethylene surface graft polymerized with styrene sulphonic acid sodium salt exhibited high cell attachment and protein adsorption, whereas the cells did not adhere to the 2-acrylamide-2-methyl propane sulphonic acid graft-polymerized surface, although both surfaces had high negative zeta potentials. Graft polymerization of acrylamide reduced the zeta potential of surface close to zero and rejected the cell attachment. The polyethylene surface became highly cell-adhesive through graft polymerization of the cationic N,N-dimethylaminopropyl acrylamide monomer, but too much grafting killed the attaching cells. Once the cells attached to a surface without being killed, they could proliferate at the same growth rate, whatever their surface zeta potential.

Published

1991

9. Experimental study of a newly developed bilayer artificial skin.

Author

Suzuki S, Matsuda K, Isshiki N, Tamada Y, and Ikada Y

Subjects

Animals, Chondroitin Sulfates, Collagen, Contracture pathology, Epithelium pathology, Rats, Rats, Inbred Strains, Silicones, Wound Healing physiology, Artificial Organs, Biocompatible Materials, Skin pathology

Abstract

A bilayer artificial skin composed of an outer layer of silicone polymer and an inner sponge layer of collagen containing chondroitin 6-sulphate was developed by modifying the technique proposed by Yannas et al. The artificial skin was placed on the skin defects on the backs of rats. Histological observation indicated that fibroblasts and capillaries infiltrated into the pores and filled in lattice spaces, resulting in synthesis of the connective tissue matrix and absorption of the original network of collagen and chondroitin 6-sulphate. Epidermal cells migrated from the edge of the wound between the two layers. Post-operative contracture in the wound with the artificial skin was significantly less than in the control.

Published

1990