March 2, 2010 – Houston – A heart patient’s own skin cells soon could be used to
repair damaged cardiac tissue thanks to pioneering stem cell research of the
University of Houston’s newest biomedical scientist, Robert Schwartz.

His new technique for reprogramming human skin cells puts him at the forefront
of a revolution in medicine that could one day lead to treatments for
Alzheimer’s, diabetes, muscular dystrophy and many other diseases.

Schwartz brings his ground-breaking research to UH as the Cullen Distinguished
Professor of Biology and Biochemistry and head of UH’s new Center for Gene
Regulation and Molecular Therapeutics. He also is affiliated with the Texas
Heart Institute at St. Luke’s Episcopal Hospital in the Texas Medical Center,
where he is director of stem cell engineering.

“Professor Schwartz’s work will save lives, and his decision to pursue this
pioneering research at UH is a big leap forward on our way to Tier-One status,”
said John Bear, dean of the UH College of Natural Sciences and Mathematics.
“Together with the many other outstanding scientists we’ve assembled here,
Schwartz will help make this university a major player in medical research.”

Schwartz devised a method for turning ordinary human skin cells into heart
cells. The cells developed are similar to embryonic stem cells and ultimately
can be made into early-stage heart cells derived from a patient’s own skin.
These then could be implanted and grown into fully developed beating heart
cells, reversing the damage caused by previous heart attacks. These new cells
would replace the damaged cardiac tissue that weakens the heart’s ability to
pump, develops into scar tissue and causes arrhythmias. Early clinical trials
using these reprogrammed cells on actual heart patients could begin within one
or two years.

Although Schwartz is not the first scientist to turn adult cells into such stem
cells, his improved method could pave the way for breakthroughs in other
diseases. Schwartz’s method requires fewer steps and yields more stem cells.
Armed with an effective way to make induced stem cells from a patient’s own
skin, scientists can then begin the work of growing all kinds of human cells.

For example, new brain cells could treat Alzheimer’s patients or those with
severe brain trauma, or a diabetic could get new insulin-producing cells in the
pancreas. Generating new kidney, lung or liver tissue is also possible, with
scientists even being able to one day grow an entirely new heart or other organ
from these reprogrammed cells. Additionally, Schwartz and his team are working
on turning induced stem cells into skeletal muscle cells to treat muscular
dystrophy.

“We’re trying to advance science in ways folks never even dreamed about,”
Schwartz said. “The idea of having your own bag of stem cells that you can
carry through life and use for tissue regeneration is at the very cutting edge
of science.”

This latest biomedical hire is a major step in the UH Health Initiative, an
effort aimed at having the university become a world-class center for medical
research. Creating new cross-disciplinary academic and health-related research
opportunities for faculty and students is crucial to this initiative, as are
collaborations with other Texas Medical Center member institutions. One of its
top goals is to increase the amount of sponsored research expenditures awarded
to UH, which is a key factor in attaining Tier-One status.

“Dr. Schwartz will expand UH’s expertise in promising new areas of scientific
discovery to alleviate human disease. By recruiting premier scientists like
Schwartz, UH is fast becoming a major player in the regional biomedical research
community,” said Kathryn Peek, assistant vice president of University Health
Initiatives at UH.

Schwartz has decades of experience at the Texas Medical Center. Before coming
to UH, he was director of the Institute of Biosciences and Technology, a
research component of the Texas A&M Health Science Center. He also was a
longtime tenured professor at Baylor College of Medicine and co-directed the
school’s Center for Cardiovascular Development. The new research center
Schwartz heads at UH will be housed in state-of-the-art laboratory facilities at
the university’s Science and Engineering Research Center.

What attracted him to UH was the commitment of administrators and faculty to
making the university a premier center for biomedical research. His hiring
comes just a year after the arrival of Jan-Åke Gustafsson, a world-renowned
scientist and cancer researcher. They join other leading UH faculty, ranging
from biochemists to computer scientists and mathematicians, who are deeply
involved in cutting-edge medical research.