A newly-engineered strain of mice whose dividing cells express a
fluorescent protein could open the door to new methods of regulating
cell proliferation in humans. Cell proliferation plays a key role in
degenerative diseases, in which specific cells do not replicate enough,
and in cancers, in which cells replicate too much.
Cells in the human body grow and multiply during body growth or
during tissue regeneration after damage. However most mature tissues
require only rare cell divisions. Scientists who wish to study these
rare populations of replicating cells face a serious obstacle: most
current methods for labeling and identifying replicating cells involve
procedures that kill the cells and destroy sensitive biological
material. This limits the ability of scientists to examine important
functions of these cells, for example the genes active in such cells.
To address this problem, two Hebrew University of Jerusalem
researchers -- Prof. Yuval Dor from the Institute for Medical Research
Israel-Canada (IMRIC) and Dr. Amir Eden from the Alexander Silberman
Institute of Life Sciences -- together with colleagues in Denmark and
the U.S., created a mouse strain in which replicating cells express a
fluorescent protein which is destroyed once cell division is completed.
In all tissues of these mice, replicating cells are labeled by green
fluorescence, which allows identification and isolation of live,
replicating cells directly from healthy or diseased tissue.
Using this system, research associate Dr. Agnes Klochendler and PhD
student Noa Weinberg-Corem at the Hebrew University were able to isolate
a rare population of replicating cells from the livers of mice, and
study the genes that they express compared with resting liver cells.
Interestingly, they found that in replicating liver cells there is a
significant decrease in the expression of genes responsible for key
liver functions such as fatty acid and amino acid metabolism.
The research results indicate that when differentiated cells divide,
they temporarily shift to a less differentiated state. This finding is
important to our understanding of the difference between the two
fundamental states of differentiation and proliferation in normal cells.
It is also relevant for the situation in cancer, where cells are
proliferating and often less differentiated.
In the future, the researchers hope to develop methods for regulating
cell proliferation. For example, isolation and study of the rare
replicating cells in the pancreas could lead to development of
approaches to promote the proliferation and expansion of
insulin-producing cells, whose loss is the hallmark of diabetes.
This could also be useful in other areas such as cancer and
regenerative biology. By distinguishing between abnormally expressed
genes in tumors and the genes associated with normal cell divisions,
researchers may be able to identify cancer-specific replication markers
with a potential to become new drug targets. Similarly, scientists could
analyze the effects of specific drugs on the biology of replicating
cells, providing important clues for regenerative medicine.
Journal Reference:
- Agnes Klochendler, Noa Weinberg-Corem, Maya Moran, Avital Swisa, Nathalie Pochet, Virginia Savova, Jonas Vikeså, Yves Van de Peer, Michael Brandeis, Aviv Regev, Finn Cilius Nielsen, Yuval Dor, Amir Eden. A Transgenic Mouse Marking Live Replicating Cells Reveals In Vivo Transcriptional Program of Proliferation. Developmental Cell, 2012; 23 (4): 681 DOI: 10.1016/j.devcel.2012.08.009
Courtesy: ScienceDaily
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