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Funds for Embryo Research Won't Quell Debate
Many grant applicants may be deterred by Bush team's policy review.
But some argue such studies should be combined with something even
more controversial: cloning.
By AARON ZITNER, Times Staff Writer
WASHINGTON--A battle over what limits to place on researchers
seeking cures for disease will reach a new stage today as the National
Institutes of Health accepts the first-ever applications from scientists
who want money to experiment with cells from human embryos.

It is not clear how many scientists will apply for the federal grants.
Many are deterred by the fact that President Bush may soon block the
money on the grounds that the government should not fund research
in which human embryos are destroyed. Bush has stated his
personal opposition to embryo research, and his administration is
reviewing the legality of federal funding.

But scientists call the work promising. And now, even as they fight
Bush's possible opposition, some scientists are arguing that they must
undertake something even more controversial in their attempts to cure
disease: combine embryo research with human cloning.

With journal articles and early-stage experiments, some scientists are
building a case that cloning might do something that embryo research
cannot do alone: create cells and tissues that could be swapped into
patients like new parts on an old car.

"There's no doubt that this kind of research is going to happen,"
said Lee Silver, a professor of biology and public policy at Princeton
University. "It's a question of when and of how many people are going
to die who could have been saved."

If cloning technology has, in fact, reached the point where it can be
considered in medical treatment, even in a preliminary way, then it
shows how science often moves far faster than lawmakers and the
public can follow.

Britain in January became the first nation to legalize the creation of
cloned human embryos for medical research. No federal law stops U.S.
researchers from pursuing the same research with private money, but
many scientists say the work will not move quickly without help from
the federal government. And opposition from anti-abortion groups and
others is so strong that the work is unlikely to win federal funding in the
near future.

Scientists who support the research do not want to use cloning to
create children but rather to create tissues that could be transplanted
into patients. The process is often called "therapeutic cloning," to
distinguish it from cloning aimed at reproduction.

Like the research that the NIH may soon fund, therapeutic cloning
tries to take advantage of a remarkable type of cell within embryos
called the stem cell.

Stem cells arise when an embryo is only a few days old. They have the
ability to become anything in the body--brain, bone, nerve cells and the
like--but they have not yet been "programmed" by the embryo to take
on any of those specialized roles.

Scientists want to learn how to guide stem cells to become new heart
tissue for cardiac patients, insulin-producing cells for diabetics, and
brain cells for people with Parkinson's and Alzheimer's diseases. They
say stem cells, first isolated only two years ago, provide the first real
hope for patients with many incurable and life-threatening diseases.

The NIH announced in August that it would fund experiments using
stem cells from human embryos, though it has barred cloning. Research
proposals, which are due today for the current round of funding, must
pass a special ethics review and then compete against applications in
other areas of medicine.

"Talking to our members, I don't think there are going to be a lot of
applications. People don't want to go through the whole process only to
find out that all the funding is blocked," said Tim Leshan, director of
public policy for the American Society for Cell Biology.

Even so, some scientists want to push the research in new directions
through cloning, which would invite even more controversy.

They focus on the fact that the human body is far more temperamental
than a car and it cannot always accept new parts. In fact, many organ
transplant patients reject their new heart or kidney as foreign material,
consigning the patients to a lifetime of anti-rejection drugs.

Therapeutic cloning might solve this problem. It envisions that
DNA from a patient would be used to create an embryo. Then, stem cells
from the embryo would be used to create the cells or tissue that the
patient needs.

Because the new tissue would have the same genetic makeup as the
patient, it might not be rejected by the patient's body.

Dr. Harold Varmus, a former director of the NIH, has said that
therapeutic cloning and related work could unleash "some of the most
promising new approaches to the treatment of human disease." Three
researchers and three bioethicists, including Silver, wrote recently in a
professional journal that therapeutic cloning could "transform medicine."

But anti-abortion groups and others oppose stem cell research, because
human embryos must be destroyed to obtain the cells. And if taking
cells from embryos is controversial, the idea of cloning people to create
those embryos touches off an even stormier debate.

NIH rules permit only one source of embryo stem cells. They must come
from embryos produced by couples at fertility clinics but which the
couples no longer need in their attempts to have children.

In therapeutic cloning, by contrast, scientists would create embryos
themselves to produce the stem cells. "I call it destructive cloning--
cloning followed by the destruction of the product," said Richard
Doerflinger of the National Conference of Catholic Bishops.

Moreover, Doerflinger said, the act of cloning itself is "reprehensible
because it turns human reproduction into a manufacturing process. It
really turns humans into mere objects. And we think it's particularly
disdainful of human life to make a life solely to be experimented on."

Supporters of therapeutic cloning counter that an embryo, at only
several days old, is not equivalent to a person. To support that point,
they note that many embryos self-destruct in the womb rather than grow
into children.

"Eggs are not chickens, and acorns are not oaks," Silver and his
co-authors wrote in their article, which appeared in the Journal of the
American Medical Assn. in December.

Several experiments have suggested that therapeutic cloning has
promise, at least in animals.

Last year, an Australian team reported that it cloned mice to produce
embryos, then used stem cells from those embryos to produce muscle
and nerve cells.

In Massachusetts last year, Dr. Anthony Atala of Harvard
Medical School and Children's Hospital in Boston cloned a cow to
produce an embryo. Then he took tissues from the cloned embryo and
sewed those back into the adult cow.

Atala and his colleagues wanted to see if the cow would reject the
cloned cells, much as a patient might reject a new kidney or heart.
Instead, the cells grew and thrived.

Atala said the experiment showed that cloning might overcome the
problem of tissue rejection. "This is a proof of principle, but it's many,
many steps away from a therapy," he cautioned.

The experiment, which is continuing, was done in cooperation with
Advanced Cell Technology Inc., a Worcester, Mass., biotechnology
company. Results have not been published.

Dr. Lorenz Studer of the Memorial Sloan-Kettering Cancer Center in New
York City said he wants to produce the specialized brain cells that are
destroyed in Parkinson's disease.

Working with mice, scientists have already produced these cells from
embryo stem cells. Now Studer is trying to determine whether the
same cells can be produced from the embryos of cloned mice.

Studer calls the work important, but he warns that there are many
hurdles.

When researchers use cloning to produce live animals, they often create
lots of embryos that fail to grow properly, or which result in deformed
offspring. This suggests that cloning has left the embryo with a genetic
defect, Studer said.

Scientists must be sure that similar defects do not appear in the tissues
transplanted into patients, Studer said, so that the tissues "don't do
things they're not supposed to do" in the patient's body.

Still, he said, using cloning to help patients "is a concept that wasn't
thinkable several years ago, and at last it's conceptually possible."

Copyright 2001 Los Angeles Times

http://www.latimes.com/news/science/science/20010315/t000022674.html

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