Cancer- Pancreatic- New Molecular Mechanism
New Molecular Mechanism Tied to
Pancreatic Cancer
Aug. 21, 2013 — New research led by scientists at The
University of Texas Health Science Center at Houston (UTHealth) and Baylor
College of Medicine could aid efforts to diagnose and treat one of the most
lethal and hard-to-treat types of cancer.
In the EMBO Molecular Medicine journal, the investigators
report that they have identified a new molecular mechanism that contributes to
the spread of malignant tumors in the pancreas. The hope is that drugs could one day be developed to
block this pathway.
Most people with pancreatic cancer die within one to two
years of diagnosis and it is expected to claim 38,460 lives in the United
States in 2013. There are currently no effective tests for early detection and
no effective therapies for the fast-spreading form.
The study focused on the previously established link between
zinc and pancreatic cancer
and sought to identify a molecular mechanism responsible for the elevated
levels found in human and animal cells. Zinc is an essential trace element and small amounts are
important for human health.
"We were the first to show that zinc transporter ZIP4 was a marker for pancreatic cancer,"
said Min Li, Ph.D., the study's senior author and associate professor and director
of the Cancer Research Program in the Vivian L. Smith Department of
Neurosurgery at the UTHealth Medical School. "We knew there was a link but
we didn't know what it was."
Li is on the faculty of The University of Texas Graduate
School of Biomedical Sciences at Houston, which is a joint venture of UTHealth
and The University of Texas MD Anderson Cancer Center.
Zinc
levels are regulated by ZIP4, which acts as a master switch, and the
researchers designed experiments to determine what happens when the switch is
flipped on, Li said.
In an animal model of pancreatic cancer, the scientists
observed how the initiation
of ZIP4 triggered the activation of two downstream genes, which in turn
accounts for the increased
tumor growth. Scientists describe this as a signaling cascade.
"Pancreatic cancer is among the worst of all cancers.
It is imperative to define the mechanism of this deadly disease. We have
recently demonstrated a novel biological role for the zinc transporter ZIP4 in pancreatic cancer;
however, the molecular pathway controlling this phenomenon remains elusive.
This study provides a comprehensive mechanism for ZIP4-mediated pancreatic
cancer growth involving the activation
of a transcription factor CREB and an oncogenic miR-373, and reduction in key tumor
suppressor
genes," said Yuqing Zhang, Ph.D., co-first author of the study.
Jingxuan Yang, Ph.D., co-first author and research scientist
at the UTHealth Medical School, said, "Our findings in this study define a
novel signaling axis promoting pancreatic cancer growth, providing potential
mechanistic insights on how a
zinc transporter functions in cancer cells and may have broader implications
as abnormal zinc concentration
in the cells plays an important role in many other diseases."
"The results we reported in this study may help the
design of future therapeutic strategies targeting the zinc transporter and microRNA pathways to treat
pancreatic cancer," said Xiaobo Cui, M.D., Ph.D., study co-first
author and postdoctoral research fellow at the UTHealth Medical School.
Co-authors include: Yong Chen, Ph.D., Vivian F. Zhu, and
John P. Hagan, Ph.D., of UTHealth; Huamin Wang, M.D., Ph.D., Paul Chiao, Ph.D.,
and Craig D. Logsdon, Ph.D., of The University of Texas MD Anderson Cancer
Center; Sally E. Hodges, William E. Fisher, M.D., F. Charles Brunicardi, M.D.,
Changyi Chen, M.D., Ph.D., and Qizhi Yao, M.D., Ph.D., of Baylor College of
Medicine; Martin E. Fernandez-Zapico, M.D., of the Mayo Clinic; Xianjun Yu,
M.D., Ph.D., of Fudan University in Shanghai, China; and Jing Fang, Ph.D., of
the Chinese Academy of Sciences in Shanghai.
The study titled "A novel epigenetic CREB-miR-373 axis mediates ZIP4-induced pancreatic cancer
growth" received support from National Institutes of Health Grants
(R01CA138701, R21CA133604), and the William and Ella Owens
Medical Research Foundation.
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