Terada Satoshi

Satoshi TERADA, Associate Professor

Ph.D. (The University of Tokyo, 1995)

Japanese

Generating of novel cell lines for artificial organ and cell therapy.
Improvement of bio-active factor production. Study of apoptosis mechanism.

Publications (2002- )

1）S. Terada, et al.Establishment of Novel Cell Line for Artificial Liver Animal Cell Technology: Basic & Applied Aspects vol.12. 201-205. 2002
2) S. Terada, et al. Apoptosis Inhibiting Genes and Caspase Inhibitors Improved Mammalian Cell Survival and Enhanced Protein Production ACS Symposium Series 830, Biological Systems Engineering. 190-199. 2002
3) A. Ogawa, S. Terada, et al. Human Amniotic Epithelial (HAE) Cells Produce Erythropoietin Animal Cell Technology: Basic & Applied Aspects vol.12.　309-313. 2002
4) M. Kawahara, A. Natsume, S. Terada, et al. Lysozyme-Dependent Proliferation Switch: Hematopoietic and Hybridoma Cell Growth Control with the Use of Antibody/gp130 Chimera Animal Cell Technology: Basic & Applied Aspects vol.12. 337-341. 2002
5) S. Terada, et al. Sericin, a Protein Derived from Silkworms, Accelerates the Proliferation of Several Mammalian Cell Lines Including a Hybridoma Cytotechnology. 40. 3-12. 2002
6) S. Terada, et al. Generation of a Novel Apoptosis-Resistant Hepatoma Cell Line Journal of Bioscience and Bioengineering.95. 146-151. 2003
7）S. Terada, et al.Transfecting Anti-Apoptosis Genes into a Hepatoma Cell Line in order to Improve Cryopreservation. Low Temp. Med., 29, 1-5. 2003
8) N. Sakai, S. Terada, et al. Introduction of Apoptosis-Resistant Genes to Hybridoma Cells and their Influence. Animal Cell Technology: Basic & Applied Aspects, in press
9) T. Kumagai, K. Takemura, S. Terada, et al. Effect of Silk Protein Sericin on Hepatoblastoma HepG2 Animal Cell Technology: Basic & Applied Aspects, in press
10) A. Ogawa, S. Terada et al. Anti-apoptotic genes protect an insulinoma cell line from cell death induced by hyperglycemia, Animal Cell Technology meets Genomics, in press
11) A. Ogawa, S. Terada et al. Progesterone, but not 17b-Estradiol, Up-regulates Erythropoietin (EPO) Production in Human Amniotic Epithelial Cells Journal of Bioscience and Bioengineering, （accepted）

Photographs