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From The Times
July 16, 2007

Human stem cells may be produced without embryos 'within months'

Leo Lewis
Japan's leading genetics researcher could be "a matter of months" from
reaching the Holy Grail of biotechnology - producing an "ethical" human stem
cell without using a human embryo, he has said.
But in an exclusive interview with The Times, Shinya Yamanaka urged the
scientific community: "Do not stop stem-cell research with human embryos,
because patients will die if you do stop." Although his work could transform
the stem-cell field, speaking on the eve of his arrival in Britain to
present research to geneticists, Professor Yamanaka emphasised that "right
now, embryonic stem cells are vital to medical research".
The potential of Professor Yamanaka's breakthrough work - in which the skin
cells of laboratory mice were genetically manipulated back to their
embryonic state - has been hailed as the equivalent of "transforming lead
into gold". If the research develops in the way he hopes, runs the excited
logic, the ethical problems that have swirled around embryonic stem-cell
research would disappear.
No longer would the field, which experts believe could unlock cures for
diseases such as diabetes and Parkinson's, be hampered by controversy
arising from the use of human embryos.
The concept of artificially inducing adult cells to return to a stem-cell
state raises equally attractive possibilities for organ transplantation. If,
for example, a patient's skin cell could be reverted to stem-cell form and
thence converted back into any other form of tissue - such as nerve, heart
or other organs - it could then be transplanted without risk of rejection by
the patient.
Professor Yamanaka, who himself expresses strong distaste for using human
embryos as a source of stem cells, firmly believes that the interests of
patients come first. "It is hard to predict how the science will develop,
but I think we could produce a basic prototype-induced stem cell made from a
human adult cell within six months to a year," he said. "Within two to three
years we may be able to create a stem cell that is indistinguishable from
one taken from an embryo. What we cannot do, though, is to let the optimism
over my science hold us back from conducting research on embryonic stem
cells while we are waiting for the alternative."
Stem cells are regarded as the "building blocks" of life because of their
ability to grow into different types of tissue or organs. Those derived from
embryos are the most versatile.
Professor Yamanaka explained that his technique for inducing stem cells -
itself a pronounced departure from the research routes being pursued by
rivals in the US and Britain - raises safety problems that need to be
eradicated before the "ethical stem cell" is fit for use in humans. The four
genes that he manipulates to create the transformation include one that acts
as a "cancer switch" for healthy cells.
Although Professor Yamanaka's work was welcomed by the opponents of the use
of human embryos in stem-cell research, answering their objections was not
his main motive.
Professor Yamanaka believes that his laboratory explains a lot. Small,
cramped and on the second floor of a decrepit university building, the lab
contrasts with the modern, better-funded ones he sees on visits overseas. It
would, he says. surprise people who think of Japan as a high-tech paradise.
He hopes that his work might hasten Japan's return to the top ranks of
serious players in genetics technology.
Professor Yamanaka also sharply criticised the timid and "stupid" Japanese
Government, which, he said, has no feel for the importance of science and
imposes "terrible regulations and crazy policies that crush any long-term
projects". Hampered by mountains of bureaucratic paperwork and complex
restrictions, Japanese stem-cell research has dwindled to virtually nothing.
Britain, the US and South Korea have surged ahead.
The creation of an "ethical stem cell" usable by Japanese researchers
without expensive licensing or onerous regulation would, he said, "give
competitiveness back to his country".

How countries regulate embryo research
- Somatic cell nuclear transfer (SCNT) involves the insertion of a somatic
cell's nucleus into an egg whose nucleus has been removed. It creates an
embryonic clone of an animal harvested for stem cells
- Countries allowing this include the UK, China, India, Australia, Belgium,
Japan, South Korea and Sweden
- In other countries, including France, Spain and Canada, genetic material
must be derived from donations to fertility clinics
- Countries that prohibit stem-cell research or allow it only on cells
obtained from abroad or those predating the legislation include the US,
although California has its own rules allowing SCNT
Source: University of Minnesota Medical School

Rayilyn Brown
Board Member AZNPF
Arizona Chapter National Parkinson's Foundation
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