LIVING ORGAN GROWN FROM LAB CREATED CELLS
Laboratory-grown
replacement organs have moved a step closer with the completion of a new study.
Scientists have grown a fully functional organ from transplanted
laboratory-created cells in a living animal for the first time.
The researchers have
created a thymus -- an organ next to the heart that produces immune cells known
as T cells that are vital for guarding against disease.
They hope that, with
further research, the discovery could lead to new treatments for people with a
weakened immune system.
The team from the MRC
Centre for Regenerative Medicine at the University of Edinburgh took cells
called fibroblasts from a mouse embryo. They turned the fibroblasts into a
completely different type of cell called thymus cells, using a technique called
reprogramming.
The reprogrammed cells
changed shape to look like thymus cells and were also capable of supporting
development of T cells in the lab -- a specialised function that only thymus
cells can perform.
When the researchers
mixed reprogrammed cells with other key thymus cell types and transplanted them
into a mouse, the cells formed a replacement organ. The new organ had the same
structure, complexity and function as a healthy adult thymus.
It is the first time
that scientists have made an entire living organ from cells that were created
outside of the body by reprogramming.
Doctors have already
shown that patients with thymus disorders can be treated with infusions of
extra immune cells or transplantation of a thymus organ soon after birth. The
problem is that both are limited by a lack of donors and problems matching
tissue to the recipient.
With further
refinement, the researchers hope that their lab-grown cells could form the
basis of a thymus transplant treatment for people with a weakened immune
system.
The technique may also
offer a way of making patient-matched T cells in the laboratory that could be
used in cell therapies.
Such treatments could
benefit bone marrow transplant patients, by helping speed up the rate at which
they rebuild their immune system after transplant.
The discovery offers
hope to babies born with genetic conditions that prevent the thymus from
developing properly. Older people could also be helped as the thymus is the
first organ to deteriorate with age.
The study is published
today in the journal Nature Cell Biology.
Professor Clare
Blackburn from the MRC Centre for Regenerative Medicine at the University of
Edinburgh, who led the research, said: "Our research represents an
important step towards the goal of generating a clinically useful artificial
thymus in the lab."
Dr Rob Buckle, Head of
Regenerative Medicine at the MRC, said: "This is an exciting study but
much more work will be needed before this process can be reproduced in a safe
and tightly controlled way suitable for use in humans."
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