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World-first Stem Cell Research Could Aid Male Infertility
Main Category: Stem Cell Research News
Article Date: 12 Jul 2006 - 18:00pm (PDT)
|Scientists have shown for the first time that sperm grown from embryonic
stem cells can be used to produce offspring.

The experiment was carried out using mice and produced seven babies, six of
which lived to adulthood.

The breakthrough, reported today, Monday July 10, in the academic journal
Developmental Cell, helps scientists to understand more about how animals
produce sperm. This knowledge has potential applications in the treatment of
male infertility.

Karim Nayernia, who has just taken up a post as Professor of Stem Cell
Biology at Newcastle University, led the research while in his previous
position at Georg-August University in Göttingen, Germany, with Prof. Dr
Wolfgang Engel and colleagues from Germany and the UK, including Dr. David
Elliott from Newcastle University's Institute of Human Genetics.

Stem cells have the potential to develop into any tissue type in the body
and could therefore be used to develop a wide range of medical therapies.

Prof Nayernia, of the Newcastle-Durham-NHS Institute for Stem Cell Biology
and Regenerative Medicine*, and his team describe in their paper how they
developed a new strategy for generating mature sperm cells in the laboratory
using embryonic stem cells from mice. They then went on to test whether this
sperm would function in real life.

The team isolated stem cells from a blastocyst, an early-stage embryo that
is a cluster of cells only a few days old.

These cells were grown in the laboratory and screened using a special
sorting machine. Some had grown into a type of stem cell known as
'spermatogonial stem cells', or early-stage sperm cells.

The spermatogonial cells were singled out, then genetically marked and grown
in the laboratory. Some of them grew into cells resembling sperm, known as
gametes, which were themselves singled out and highlighted using a genetic
marker.

The sperm that had been derived from the embryonic stem cells was then
injectd into the female mouse eggs and grown into early-stage embryos.

The early-stage embryos were successfully transplanted into the female mice
which produced seven babies. Six developed into adult mice.

The work was funded by the University of Göttingen and the Germany Research
Council (DFG).

Prof Nayernia, who originally hails from Shiraz in Southern Iran, said:
"This research is particularly important in helping us to understand more
about spermatogenesis, the biological process in which sperm is produced. We
must know this if we are to get to the root of infertility.

"If we know more about how spermatogonial stem cells turn into sperm cells,
this knowledge could be translated into treatments for men who are unable to
produce mature sperm, although this is several years down the line. For
example, we could isolate a patient's spermatagonial cells using a simple
testicular biopsy, encourage them in the laboratory into becoming functional
sperm and transplant them back into the patient."

The findings could also inform a field of stem cell research known as
nuclear transfer, or therapeutic cloning, which aims to provide tailor-made
stem cells to aid disease therapy and infertility. Sperm cells could
potentially be created using this method.

Prof Nayernia and his team in Germany were the first in the world to isolate
spermatagonial stem cells. The team was also able to show that some of these
stem cells, called multipotent adult germline stem cells (maGSCs), turned
into heart, muscle, brain and other cells.

Although previous studies have shown that embryonic stem cells grown in the
laboratory can become germ cells that give rise to cells resembling sperm
cells or gametes, this is the first time scientists have tested whether the
gametes really work in real life.

Prof Nayernia added: "Spermatogonial stem cells are extremely promising and
more research is needed to establish their full potential."

###

* The Institute for Stem Cell Biology and Regenerative Medicine (ISCBRM
draws together Durham and Newcastle Universities, the Newcastle upon Tyne
Hospitals NHS Foundation Trust and other partners in a unique
interdisciplinary collaboration to convert stem cell research and
technologies into cost-effective, ethically-robust 21st century health
solutions to ameliorate degenerative diseases, the effects of ageing and
serious injury. The Institute has received substantial funding and other
support from One NorthEast. See: http://www.iscbrm.org/

Stem cell biology and regenerative medicine is one of four major research
themes which underpin Newcastle's development as a 'Science City'. The UK
Government designated Newcastle a 'Science City' because of its research
excellence and potential to contribute to UK's knowledge economy. See:
http://www.ncl.ac.uk/sciencecity/

Contact: Claire Jordan
University of Newcastle upon Tyne

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