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Results Published in journal Science


UNMC Researcher, Colleagues Develop New Cell Transplantation

Method That May Help Fight Off  Liver Failure


 


Researchers at Brigham and Women’s Hospital (BWH)/Massachusetts Institute

of Technology (MIT), along with colleagues at the University of Nebraska

Medical Center, Okayama University Medical School in Japan and Genetix

Pharmaceuticals have developed a method of genetically manipulating liver

cells to help prevent acute organ failure. By temporarily helping to stave

off liver failure, the new therapy may allow patients to survive longer

for a suitable organ for transplant surgery or for spontaneous recovery

of their liver disease.  The findings are published in the Feb. 18

issue of the journal, Science.

Transplantation of isolated human liver cells has been used in the

past in patients with life-threatening liver failure. A major limitation

of this form of therapy was the inability to isolate an adequate number

of transplantable liver cells said Philippe Leboulch, M.D., one of the

principal investigators and assistant professor at Harvard Medical School

and MIT. We now have devised a gene transfer strategy in which an immortalizing

gene is introduced into healthy liver cells to allow them to divide actively

in culture outside the body.

Dr. Leboulch said researchers were able to remove the gene permanently

so that normal human liver cells could be transplanted in large numbers

without the potential danger of keeping the immortalizing gene in the body.

This novel procedure is called Reversible Immortalization.

“The critical need for organ donors continues to force us to look at

new ways of solving problems in transplantation,” said co-principal investigator,

Ira Fox, M.D., associate professor of surgery and a transplant surgeon

at the University of Nebraska Medical Center and Nebraska Health System.

“This work will hopefully help us develop alternative ways of treating

patients with liver failure and, if we’re lucky, the technology may apply

to the treatment of patients with other medical conditions as well.”

Naoya Kobayashi, M.D., first author of the study, now at Okayama University,

started the research in Nebraska and then returned to Japan and showed

that the reversibly immortalized liver cells were able to function remarkably

well after injection in rats with acute liver failure. Whereas all control

animals died within three days, 60 percent of the treated animals survived. 

The reversibly immortalized human liver cells were able to bridge life

in these animals until their own liver could regenerate and take over.

The liver is the largest and one of the most complex organs in the

body, Dr. Leboulch said. It converts our food into molecules necessary

for life and growth, it produces essential coagulation factors, and it

detoxifies and excretes substances that otherwise would be poisonous. For

patients who suffer from terminal liver disease, the novel gene transfer

strategy of reversible immortalization may one day be a vital bridge of

life as they await an organ transplant.

It is estimated that 25 million Americans are or have been afflicted

with liver diseases.  According to the American Liver Foundation,

4,318 liver transplants were performed in 1998.  But because of the

shortage of organs, it is estimated that 1,327 patients on the U.S. waiting

list died in 1998 while waiting for a liver transplant.

The study was supported by grants from the National Institutes of Health.

UNMC is the only public academic health science center in the state.

Through its commitment to research, education, outreach and patient care,

UNMC has established itself as one of the country’s leading centers for

cancer research and treatment, solid organ transplantation and arthritis.

Nearly $31 million in research grants and contracts were awarded to UNMC

scientists during the past fiscal year. In addition, UNMCs educational

programs are responsible for training more health professionals practicing

in Nebraska than any other institution.