Stem Cell Research Facilities at UC San Diego Receives $2.8 Million Grant
News Jun 06, 2007
The University of California, San Diego (UCSD) Human Stem Cell Core Facility, which supports multiple research projects using stem cells to advance the understanding and ultimately the treatment of disease and injury, will receive a $2.8 million Shared Research Laboratory Grant from the California Institute for Regenerative Medicine (CIRM).
The funding will be used to upgrade the current core facility, and to support the establishment of a new satellite facility to expand the resources available to investigators.
“The support provided by this grant will allow UCSD to enhance our collaborative stem cell program so that we may accelerate our goals of improving health and conquering disease through regenerative medicine,” said Marye Anne Fox, UCSD Chancellor.
The core facility, directed by Karl Willert, Ph.D., is integral to UC San Diego’s broad-based efforts in stem cell research, also called “regenerative medicine” due to the unique property of stem cells to regenerate into specific cell types that potentially could be used to repair and replace tissue damaged by disease or injury.
The facility provides a specially equipped, centralized location for the maintenance of a number of established human embryonic stem cell lines, the training of scientists in basic techniques to work with these cells, and for dedicated laboratory space, technology and support for research utilizing stem cells.
A portion of the funding will be used to purchase new equipment and upgrade the existing core facility laboratory, which is utilized by a growing number of investigators from a variety of disciplines.
Research projects underway at UC San Diego include the potential use of stem cells in the treatment of cancer, Alzheimer’s and Huntington’s disease, spinal cord repair, and other diseases that are considered incurable.
The grant will also support the creation of a new 2,775 square-foot satellite core facility to be located in UC San Diego’s Jacobs School of Engineering. The laboratory will build on the research and expertise of faculty from Bioengineering and other departments in the Jacobs School, and from the Division of Physical Sciences. Faculty researchers in these departments include experts in new technologies such as nanotechnology, biomaterials, instrumentation, bioreactors and tissue engineering, all key to the stem cell research effort.
“This new core laboratory will apply an array of the most promising technologies in the world for controlling stem cell differentiation, delivering stem-cell based therapies, scaling up cell production, and engineering replacement tissues,” said Andrew McCulloch, chair of the Department of Bioengineering.
“This one-of-a-kind research laboratory also is attracting highly talented new faculty to UCSD to work on discoveries that we hope will improve the health of people in California, the country, and the world,” McCulloch added.
In addition to the opportunity to renovate and purchase state-of-the-art equipment for the current facility, Willert noted that the development of the new satellite facility will enable development of promising new materials by a whole different arm of the science, taking full advantage of the broad scope of expertise at UC San Diego.
“The contribution of bioengineers and chemists will be key in the development of innovative new technologies that will drive the future growth and translation of stem cell science,” he said.
The spatial and temporal dynamics of proteins or organelles plays a crucial role in controlling various cellular processes and in development of diseases. However, acute control of activity at distinct locations within a cell cannot be achieved. A new chemo-optogenetic method enables tunable, reversible, and rapid control of activity at multiple subcellular compartments within a living cell.