FACULTY
- Department
- Department of Pharmaceutical Sciences
- Laboratory
- Laboratory of Bio-analytical Chemistry
- Field of Study
- Chemistry
- Degree
- Doctor of Pharmaceutical Sciences
History
Graduate School/University, etc.
1986 Graduated from the Department of Comprehensive Pharmaceutical Sciences, Faculty of Pharmaceutical Sciences, Chiba University 1986 Pharmacist license 1988 Completed Master's Program, Graduate School of Pharmaceutical Sciences, Chiba University 1994 Ph.D., Pharmaceutical Sciences (Chiba University)
Why I Became a Researcher
After graduating from university, I got a job at a pharmaceutical manufacturer's laboratory. I wanted to further develop the revolutionary glycan analysis method that I had worked on in graduate school, but after hearing from my former laboratory, with barely a second thought, I quit the company I was at and went back to university. After that, I took the glycan analysis method that I was working on with me and studied abroad in the United States, where I proved that there is a sulfated polysaccharide called heparan sulfate in Drosophila and nematodes, just as there is in humans, and after clarifying the structure of heparan sulfate, I was widely recognized as a glycan researcher. At the time, many researchers around the world were interested in the question, "Do Drosophila and nematodes produce heparan sulfate with a complex structure similar to that of humans?" Presenting an answer to this question produced significant results, and I think that it opened a path for me as a researcher.
Research Information
Research Area and Theme
Clarifying Glycan Functions Using Living Organisms and Deployment for Drug Discovery Research
I have been leading the world in the deployment of glycan research using model organisms such as Drosophila and nematodes. Recently, I have succeeded in analyzing special glycans produced by human iPS cells and I am aiming to contribute to the field of regenerative medicine.
Thoughts on Research Theme
We are conducting glycan engineering research targeting the surface glycans of various cells including iPS cells and ES cells, which are currently attracting global interest. Cell surfaces in living organisms are covered with glycans (glycocalyx), and glycans play an important role in cell-to-cell communication and expression of physiological functions by binding to various molecules, including proteins and lipids. If we can analyze the biological role that glycans expressed on the surface of iPS cells and ES cells play in cell reprogramming and differentiation, it will be possible to normalize and standardize more efficient, safe, and simple cell cultures as well as cell states. Also, clarifying the detailed glycan environment when iPS cells are derived from somatic cells may help establish a new method for producing safe iPS cells without gene introduction. In addition, we will prevent the formation of teratomas caused by the contamination of undifferentiated iPS cells and ES cells, which will lead to the prevention of cancer and other diseases. Clarifying the structure and function of glycans will support the research and development of iPS cells and ES cells, and should greatly contribute to the development of regenerative medicine.
Message to Students
Surprise the world with one dissertation
For those aiming for the Department of Pharmacy: Our College of Pharmaceutical Sciences opened in 2008, which was rather recently. However, as one of the people who took a post at this college when it first opened and worked on educational reforms, I can affirm that the currents contents of the college are just about the best that they’ve ever been. If you follow our curriculum, you will acquire necessary and sufficient skills related to pharmacist skills, knowledge, and national examinations. We are waiting for your enrollment. For those aiming for the Department of Pharmaceutical Sciences: One of your career paths after graduating from the Laboratory of Bio-analytical Chemistry is to be in charge of analyzing various drugs in the formulation department of a pharmaceutical manufacturer's research laboratory. That was the course I took. In the laboratory, you can learn advanced analytical techniques through research activities, so I hope that you will be active as a member involved in drug discovery at a pharmaceutical manufacturer. On the other hand, one of the real pleasures of life science research is that you can surprise the world with one dissertation in any research field. One of our major themes is the analysis of certain glycoconjugates that undifferentiated human iPS cells continue to actively produce. Why don't we surprise the world together? We are waiting for your enrollment.