Loss of a
particular microRNA in chronic lymphocytic leukemia shuts down normal cell
metabolism and turns up alternative mechanisms that enable cancer cells to
produce the energy and build the molecules they need to proliferate and invade
neighboring tissue.
The findings come from a new study led by researchers at
the Ohio State University Comprehensive Cancer Center – Arthur G. James Cancer
Hospital and Richard J. Solove Research Institute (OSUCCC – James).
The study shows that microRNA-125b (miR-125b) by
itself regulates many enzymes and other molecules that allow
cells to make building blocks needed for their growth and proliferation such as
DNA and lipids needed for cell membranes.
It also shows that miR-125b is often lost in chronic
lymphocytic leukemia(CLL), and that the loss is associated with higher
rates of glucose metabolism. This is a characteristic of cancer cells called
the Warburg effect, and it alters how cancer cells use sugar (glucose) to
generate energy. This finding suggests that loss of miR-125b is an early step
in CLL development.
The findings, published in the journal Blood,
provide a more comprehensive understanding of how cancer develops and
identifies new potential targets for CLL drug development, the researchers say.
"Our findings indicate that miR-125b is
downregulated in both aggressive and indolent forms of CLL, and that this
downregulation is associated with metabolic adaptation to cancer
transformation," says principal investigator and corresponding author Dr.
Carlo Croce, director of Ohio State's Human Cancer Genetics program and a
member of the OSUCCC – James Molecular Biology and Cancer Genetics program.
"By identifying the metabolites that are changed, as
we have here, we can propose to use drugs that target them and perhaps control
the leukemia,"
Croce says.
Scientists have known for some time that, as normal cells
become cancer cells, different metabolic pathways are switched on and support
the enhanced growth and energy needs that malignant cells require. This study
reveals one new way that that can happen.
"The power of microRNAs is that they simultaneously
control the expression of many genes, usually by suppressing them," says
co-corresponding author Esmerina Tili, who is also first author and a
post-doctoral researcher in Croce's laboratory.
"We believe miR-125b is a master regulator of cell metabolism, and
that its loss enhances metabolism and leads to a transformed state," Tili
says. "As the level of miR-125b goes down in CLL cells, the levels of many
of the molecules it controls go up, enabling rapid cell growth."
These molecules, along with miR-125b itself, warrant
further investigation as possible targets for new drugs to control CLL
progression, she says.
"Cancer is a complex disease," Croce says.
"The more we know about the changes that occur when cells become
malignant, the better therapies we can design."
Provided by Ohio
State University Medical Center
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