Scientists
have created cells capable of killing cancer for the first time.
 |
| microscopic cells being cultured to kill cancer |
The
dramatic breakthrough was made by researchers in Japan who created cancer-specific
killer T cells. They say the development paves the way for the cells being
directly injected into cancer patients for therapy.
The cells
naturally occur in small numbers, but it is hoped injecting huge quantities
back into a patient could turbo-charge the immune system.
Researchers
at the RIKEN Research Centre for Allergy and Immunology revealed they have
succeeded for the first time in creating cancer-specific, immune system cells
called killer T lymphocytes.
To create
these, the team first had to reprogramme T lymphocytes specialised in killing a
certain type of cancer, into another type of cell called induced pluripotent
stem cells (iPS cells).
These iPS
cells then generated fully active, cancer-specific T lymphocytes.
These
lymphocytes regenerated from iPS cells could potentially serve as cancer
therapy in the future.
Previous
research has shown that killer T lymphocytes produced in the lab using
conventional methods are inefficient in killing cancer cells mainly because
they have a very short life-span, which limits their use as treatment for
cancer.
The iPS
cells obtained were then grown in the lab and induced to differentiate into
killer T lymphocytes again. This new batch of T lymphocytes was shown to be
specific for the same type of skin cancer as the original lymphocytes.
They
maintained the genetic reorganisation, enabling them to express the
cancer-specific receptor on their surface. The new T lymphocytes were also
shown to be active and to produce an anti-tumour compound.
Doctor
Kawamoto said: 'We have succeeded in the expansion of antigen-specific T cells
by making iPS cells and differentiating them back into functional T
cells.
'The next
step will be to test whether these T cells can selectively kill tumour cells
but not other cells in the body. If they do, these cells might be directly
injected into patients for therapy. This could be realised in the
not-so-distant future.'
The
findings were published in the journal Cell Stem Cell.
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