May 30, 2012 in
Cancer Breast-cancer researchers at the
University of Wisconsin-Madison have found that two related receptors in a
robust signaling pathway must work together as a team to maintain normal
activity in mammary stem cells. Biology
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stem cells produce various kinds of breast cell types. They may also drive the
development and growth of malignant breast tumors. Published
recently in the Journal of Biological Chemistry, the research also suggests
that a new signaling pathway may be involved, a development that eventually
could take cancer-drug manufacturers in a new direction. "We
wanted to know if we could use this knowledge to inform us about what might be
the transition that occurs to start tumor growth and maintain it," says
senior author Dr. Caroline Alexander, professor of oncology at the McArdle
Laboratory for Cancer Research at the School of Medicine
and Public Health. The paper describes new information about the
Wnt signaling pathway. Wnt signaling underlies numerous activities in normal
development, but when the system is unregulated, cancer often occurs. "Wnt
signaling is very important for both stem cells and tumor growth. We need to
know the details of the signaling process so that we can use the positive
aspects of Wnt signaling for regenerative medicine, and eliminate the negative
cancer-causing aspects," says Alexander, a member of the UW Carbone Cancer
Center (CCC). Regenerative biologists typically add Wnt
proteins together with other agents to guide the differentiation of lung, bone
and heart stem cells, she notes. The UW researchers zeroed in on two related
Wnt receptors on the cell surface--LRP5 and LRP6. The receptors normally
respond to Wnt ligands that approach cells to initiate a signaling cascade
inside. Immunotoxicity ELISA Kits - Anti-KLH, -SRBC, -Tetanus
Toxoid. Mouse, Rat, Chicken. Anti-IgG & IgM - www.lifediagnostics.com Scientists have known that when some
abnormality causes over-expression of Wnt signaling, many types of cancer can
arise. They think that the over-expression of the LRP6 receptor may be
important to some of the worst-outcome triple-negative breast tumors. On the
other hand, LRP5 is clearly necessary for mammary stem cells to work. Wnt
ligands typically attach at the cell surface to a multi-component receptor
complex that includes an LRP or to another receptor called Frizzled. Binding
with specific receptors ultimately leads several different types of signal to
travel down specific arms of the pathway to activate Wnt-target genes located
in the nucleus. In earlier research, Alexander and her team
found that LRP5 and LRP6 serve different functions in the mouse mammary gland.
The current research examined the signaling potential of each receptor. "Our
hypothesis was that different Wnt ligands activate the Wnt pathway by preferentially
signaling through either LRP5 or LRP6," Alexander says. To test
the hypothesis, researchers treated embryonic mouse cells with different
physiologically relevant Wnt ligands. They found that both LRP5 and LRP6 were
required to respond optimally to one group of Wnt ligands. Over-expression
of either LRP5 or LRP6 overcame the need for both receptors to be present,
suggesting that this was a way to sidestep the natural controls that regulate
stem cell function during tumor development. "This
requirement for both receptors explains why mice engineered to have only LRP6
are resistant to Wnt-mediated tumors," Alexander says. "We think that
the Wnt ligand normally responsible for maintaining mammary stem cells falls
into the group of ligands that is dependent on both LRPs." Alexander
theorizes further that the dual-action signaling may occur through some pathway
that is completely different than the traditional so-called canonical pathway. To see
clearly how LRP5 and LRP6 act singly and together, the team employed a novel
technique called IFAST, which works even when natural receptor concentrations
are low. The technique was developed by CCC researcher Dr. David Beebe, a UW
professor of biomedical engineering. The technique showed that LRP5 and LRP6 are
linked structurally in a single signaling complex, called a heterodimer. Nobody
has been able to make such an observation until now. The
dual-requirement for LRP5 and LRP6 was also observed in live mice that had the
first stages of tumor growth, which depends on early ductal stem cell activity.
Pharmaceutical
companies that produce breast-cancer drugs have focused most of their efforts
on the Frizzled receptor and the more traditional canonical signaling pathway
it uses. But that may change in the near future, Alexander says. "Having
a different Wnt receptor complex and signaling pathway is something drug
companies would be interested in," she says.
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