Drug-in Blood Cancers- May Stop Spread of Breast Cancer
Cells
Drug Used for Blood Cancers May Stop
Spread of Breast Cancer Cells
Aug. 22, 2013 — A drug used to treat blood cancers may also
stop the spread of invasive
breast cancer, researchers at Mayo Clinic in Florida have discovered.
Their study, published online in Breast Cancer Research, found that in the lab
and in animals, the drug decitabine turns on a gene coding for protein kinase D1 (PRKD1) that
halts the ability of cancer cells to separate from a tumor and spread to
distant organs.
"Treatment with low doses of decitabine in an animal model of
breast cancer restored PRKD1 expression, reduced tumor size, and blocked metastasis to
the lung," says the study's senior investigator, Peter Storz, Ph.D., a
biochemist and molecular biologist at Mayo Clinic in Florida.
"The outcome of patients with invasive breast cancer is
less than optimal despite many attempts to improve treatment, including advanced
chemotherapy and hormonal therapy," says Dr. Storz. "We hope this
study offers a new avenue to prevent breast cancer from becoming aggressive and
untreatable."
The research team, which includes first author Sahra Borges,
Ph.D., a postdoctoral researcher in Dr. Storz's lab, found that the gene coding
for PRKD1 was silenced in all but one subtype of invasive breast cancer,
including aggressive triple negative breast cancer. That subtype is invasive
lobular carcinoma.
Dr. Borges also developed an assay that can be used to
measure the amount of PRKD1 that is silenced in patients' breast tumors."Because
we found that PRKD1 is increasingly silenced as breast cancer becomes
aggressive and spreads, the hope is that this test can be further developed and
used to predict which patients are at risk for cancer metastasis, and thus may
benefit from decitabine," Dr. Borges says.
Decitabine,
approved by the U.S. Food and Drug Administration for use in some blood
cancers, is a demethylating
agent, meaning that it can switch on beneficial genes such as PRKD1 that cancer has
silenced in order to grow.
Treating genes that are silenced is much easier than trying
to restore function of a mutated gene, Dr. Storz says. The normal function of
PRKD1, which is expressed in cells of the mammary gland, is to maintain normal
function by preventing cells from morphing into a state where they can dislodge
and spread, he says.
The researchers hope this study will help them to design a clinical trial in
collaboration with Mayo Clinic physicians using decitabine to promote re-expression
of PRKD1 and agents that activate PRKD1.
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