Diabetes
in the News
Drug Prevents
Diabetes Recurrence After Islet Cell Transplantation
Source: American Diabetes Association
Publication date: 2004-01-20
Drug
Prevents Diabetes Recurrence After Islet Cell Transplantation
Source:
University Of Virginia Health System
January
20, 2003
A new
anti-inflammatory compound called Lisofylline prevents diabetes
from coming back after insulin-manufacturing islet cells are
transplanted into diabetic mice, according to a new study
by researchers at the University of Virginia Health System.
The study is published in the January 20 issue of the journal
Transplantation.
Pancreatic
islet cell transplantation has become a promising treatment
for type 1 diabetes in humans in recent years. But without
several powerful immunosuppressive drugs, the body's immune
system would destroy the engrafted islet cells in transplant
patients leading to insulin deficiency, an excess of glucose
in the blood and the return of diabetes.
Lisofylline,
or LSF, has the potential to help prevent this cellular destruction
by preserving insulin secretion by pancreatic beta cells in
the presence of autoimmune attackers called inflammatory cytokines,
according to U.Va. researchers.
"Our
findings are very encouraging and we are excited that Lisofylline
worked so well in this animal model," said Dr. Jerry
Nadler, chief of the division of endocrinology and metabolism
at U.Va. and director of the Diabetes and Hormone Center of
Excellence. "We have discovered a potentially new way
to protect islet cells in a clinical transplant setting. It's
possible this research could form a basis for additional studies
to use LSF or related anti-inflammatory compounds in humans
to limit the need for more toxic immunosuppressant drugs in
islet cell transplant patients."
In the
study, diabetic mice that can only mount an autoimmune attack
were given islet transplants in the kidney and then daily
injections of LSF for 3 weeks. A control group was treated
with only saline. Results of blood glucose tests showed that
the LSF-treated mice maintained healthy glucose levels, without
immunosuppressants and insulin, for more than 65 days. Mice
treated with saline maintained healthy glucose levels for
just six days. After researchers removed the kidneys, tests
showed that insulin-positive beta cells had been retained
in the islet cell grafts of the LSF-treated mice.
"We
have found that Lisofylline has a unique function in protecting
insulin-producing beta cells," said Dr. Zandong Yang,
study co-author and assistant professor of research in the
division of endocrinology and metabolism at U.Va. "At
the cellular level, LSF inhibits a pathway that delivers cytokine
damage to beta cells. At the molecular level, we believe LSF
enhances the life-span and energy production of beta cells
by increasing metabolism in the cellular mitochondria, the
engine of a cell."
Yang says
U.Va. researchers are hoping to test LSF in human islet cell
transplant patients as part of the solution that surrounds
the isolated islets. "This would be a great help and
protect these cells from dying," he said.
The study
was funded in part by grants from the Juvenile Diabetes Research
Foundation and the Islet Replacement Research Foundation in
Gordonsville, Va.
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