Researchers have found that PGE2, a
signalling molecule involved in inflammation, promotes colorectal cancer
progression through a microRNA and targeting that microRNA could have
therapeutic potential.
Researchers have found that prostaglandin E2,
or PGE2, promotes metastasis of colorectal cancer through the microRNA, MIR675,
and pre-clinical evidence suggests that targeting the microRNA could have some
therapeutic potential.
In the study, the researchers from Medical
University of South Carolina (MUSC), US showed that mice treated with PGE2 in a
pre-clinical model of colorectal cancer had vastly more metastatic lesions in
the liver and lung than untreated mice.
“We’re still learning more about some of the
pathways involved in the development and progression of colorectal cancer,â€
said Raymond N DuBois, MD, PhD, Dean of the College of Medicine at MUSC and
senior author on the article. “I think this is one example where a microRNA
could be targeted in a therapeutic way in a subset of patients.â€
To investigate how PGE2 promotes tumour cell
proliferation, survival and migration in colorectal cancer, DuBois and the
other MUSC investigators, performed a screen on colorectal cancer cells treated
with PGE2 to detect if there were any changes following treatment.
“We found that many microRNAs changed in
response to treatment,†explained first author Bo Cen, PhD, a research
assistant professor in the DuBois laboratory. “We focused on MIR675-5p because
its levels increased more than any other in response to PGE2 treatment.â€
MIR675-5p can suppress the expression of p53,
which is one of the most well-known genes in cancer because it enables
production of a protein that can stop cell division. However, cancer can find
ways to suppress p53 so that cells can continue to divide uncontrollably.
The researchers next identified a potential
site on p53 to which MIR675-5p could bind and then confirmed that MIR675-5p
suppresses p53 to promote metastasis. In a pre-clinical colorectal cancer
model, mice were treated with PGE2 or a vehicle control. Mice treated with PGE2
were found to have more metastases compared to the control.
Further, tumour cells in the mice treated
with PGE2 had increased expression of MIR675-5p and decreased expression of
p53, confirming that PGE2 promotes tumour progression through MIR675-5p and
p53.
“Ultimately, we discovered a key mechanism by which PGE2 promotes tumour development and progression,†said DuBois. “These findings provide important pre-clinical evidence that microRNA could possibly be targeted in a therapeutic way to treat a subset of patients.â€
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