KENNEDY SPACE CENTER, FL. (October 15, 2013) - The Center for the Advancement of Science in Space (CASIS), the nonprofit organization responsible for managing and promoting research aboard the International Space Station U.S. National Laboratory, has announced grant awards for seven researchers focused on non-embryonic stem cell biology. The award amounts total over $2 million. CASIS continues to facilitate groundbreaking research through solicitations for proposals that are designed to expand the knowledge of the scientific community and advance research processes, technologies and treatments.
These winning experiments were chosen from among numerous submissions in response to the CASIS Request for Proposals titled "The Impact of Microgravity on Fundamental Stem Cell Properties." Stem cells are cells that have not yet completed differentiation, the change that occurs when cells and tissues become more specialized in their functions. They display remarkable plasticity in their ability to give rise to a spectrum of cell types and ensure life-long tissue rejuvenation and regeneration. Each experiment will use the unique microgravity environment aboard the space station to conduct experimentation that could produce tremendous health benefits for humankind - via advancements in drug screening, tissue engineering/regeneration, cell replacement therapy and cell reprogramming.
The award recipients and winning proposals are as follows:
Dr. Carl Gregory from Texas A&M Health Science Center, in collaboration with Drs. Roland Kaunas and Jun Kameoka from Texas A&M Departments of Biomedical and Electrical & Computer Engineering, will develop a system for co-culturing and analyzing stem cells mixed with bone tumor cells in microgravity. 35-50% of cancers metastasize to bone, and this system will allow identification of potential molecular targets for drugs specific to these types of cancer.
Dr. Joshua Hare, from the University of Miami Miller School of Medicine, will examine the growth and differentiation of cardiac stem cells in simulated microgravity, toward the development of novel, less invasive and less expensive stem cell therapy for use in individuals with heart failure.
Dr. Mary Kearns-Jonker from Loma Linda University will study aging of neonatal and adult cardiac stem cells in microgravity, toward improving cardiac cell therapy.
Dr. Robert Schwartz from the University of Houston, in collaboration with Drs. Clifford Dacso and Austin Cooney, both from Baylor College of Medicine, will examine the effect of simulated microgravity on two critical genes involved in reprogramming fibroblasts into cardiac progenitor cells, toward potential cell therapies.
Dr. Joseph Wu from Stanford University will examine how cardiomyocytes (cardiac muscle tissue) mature and age in microgravity, toward cardiovascular disease modeling, drug screening and cell replacement therapy.
Dr. Chunhui Xu from Emory University School of Medicine seeks to develop small-scale tissue engineering technology for studying the growth and differentiation of cardiac tissue in microgravity--toward cardiac disease modeling, drug discovery and toxicity testing, and ultimately cell replacement therapy.
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CASIS Announces Grant Awards for Stem Cell Research