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ScienceDaily May 7, 2008
A new study by UC Davis researchers provides evidence that methods using
human bone marrow-derived stem cells to deliver gene therapy to cure diseases of
the blood, bone marrow and certain types of cancer do not cause the development
of tumors or leukemia.
"The results of our decade-long study of adult human stem cell transplantation
shows that there is little risk of adverse events caused by gene transfer, and
that adult human stem cells do not pose a cancer risk when implanted into
different organs," said Jan Nolta, senior author of the study and director of
the UC Davis Stem Cell Program.
Nolta and her colleagues tested the safety of gene transfer into bone marrow
stem cells from human donors in more than 600 mice. None of the transplanted
mice developed leukemia or solid tumors caused by the gene therapy treatment,
during the evaluation period of up to 18 months.
"These data are critical for advancing stem cell research leading toward
therapies," Nolta said. "We've shown that adult stem cells follow natural cues
to reach target locations, they function normally when they get there and do not
exhibit the unchecked cell growth that is the hallmark of cancer."
Gene therapy trials using human bone marrow cells began in the early 1990s and
have since included roughly 1,000 patients worldwide. In 2000, a leukemia-like
condition emerged in three participants in a clinical trial in France, halting
the trial and calling into question the safety of the method. Researchers
suspected that the gene transferred in this trial gave the transplanted cells an
enhanced growth capacity that led to the cancers.
"After those studies in France, the gene therapy community felt that further
biosafety testing was warranted," explained Gerhard Bauer, lead author of the
study and an assistant professor of hematology and oncology. "Due to the
significantly large number of study animals, our investigation further
illuminates the safety of gene therapy using hematopoietic stem cells. It allows
us to rest easier with the knowledge that if we insert corrective genes into
human bone marrow stem cells and administer those cells to human patients, we
are providing a relatively safe therapy."
Today, gene therapy using the adult blood-forming cells found in bone marrow
(known as hematopoietic stem cells) is normally done in an autologous transplant
setting. The therapy involves taking hematopoietic stem cells from a person who
needs treatment, genetically modifying the cells — perhaps by adding a missing
gene — and then re-inserting the cells back into the same person. This treatment
eliminates the complications of graft-versus-host disease or host rejection that
can occur in allogeneic transplants (therapy where the cell donor is different
from the recipient).
In the current study, 630 immunodeficient mice received mesenchymal stem cells
from one human bone marrow donor and hematopoietic stem cells from another.
Mesenchymal stem cells are a type of cell found in bone marrow that support the
function of hematopoietic stem cells, and can give rise to bone, cartilage, fat,
and muscle. Genes were inserted into the hematopoietic stem cells using one of
two viral vectors — either a retrovirus or a lentivirus — before they were
transplanted into the mice, along with genetically modified mesenchymal stem
cells.
Of the mice used in the long-term study, four developed human leukemia. None of
those mice, however, were found to have vector DNA present in the malignant
cells.
"This is evidence of a natural tendency for human bone marrow stem cells to
develop leukemia in long-term studies, not that the leukemia was caused by the
genetic modification," Bauer explained. "It's a good statistical control for our
method."
Bauer noted that while the current study results are important for use with
adult stem cells, they are not applicable to human embryonic stem cells, which
have completely different properties.
"Our experiments did not involve human embryonic stem cells, so we have a lot of
stringent work to do to ensure that those types of stem cells can be used safely
for human clinical trials," said Bauer. "It certainly is possible, and we are
working hard to establish safe and effective human embryonic stem cell-based
cures for patients as well."
Nolta and Bauer have worked on eighteen cell and gene therapy clinical therapy
trials during their 12 years as colleagues, including stem cell gene therapy
trials for adenosine deaminase deficiency, also known as the "Bubble Boy
Disease," and stem cell gene therapy for HIV, with colleagues from Children's
Hospital Los Angeles, who are also co-authors on the current report.
Bauer is the director of UC Davis' Good Manufacturing Practice (GMP) laboratory
in Sacramento. Upon its completion, UC Davis will be one of the few universities
with a large GMP facility where scientists will work in an ultra-clean
environment to derive cellular products that, after certification and extensive
testing, will be used to treat patients. The California Institute for
Regenerative Medicine (CIRM) has recommended funding for this new facility to
help bring a wide range of stem cell therapy cures to patients throughout
California.
According to Nolta, the results of the current study will allow UC Davis to move
forward with increased certainty as it prepares for clinical trials.
"We are ready to further develop and test this safe approach to creating
effective therapies, and are also using the same model to test the safety of
embryonic stem cell-based therapies to fulfill the promise of regenerative
medicine." she said.
The study was published online in the May 6, 2008 issue of Molecular Therapy.
This work was supported by the National Institutes of Health through the
National Heart, Lung and Blood Institute/National Institutes of Diabetes and
Digestive and Kidney Diseases; The John Connell Gene Therapy Foundation; a
Career Development Award from the Children's Hospital of Los Angeles Research
Institute, and UC Davis Stem Cell Program start-up funding.
Adapted from materials provided by University of California - Davis - Health
System.
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