Researchers have found a new way to track metastatic cancer cells in the body, which in the future could help identify cancer earlier and give patients more treatment options.
From: University of Central Florida
By Wendy Sarubbi, July
18, 2022 -- In the latest issue of PLOS ONE, Dr. Annette Khaled's
research lab reported using a protein complex called a chaperonin as a new
marker for cancer cells in blood -- that provides a clearer indication of
spreading cancer. By using the new marker, UCF scientists were able to detect
more cancer cells in the blood, a procedure called liquid biopsy, which could
help patients suffering from breast and lung cancers better monitor their
disease.
Cancer cells need a lot
of proteins to survive and travel through the body. The chaperonin complex lets
proteins fold into functional, three-dimensional shapes. Without the complex,
important proteins needed by cancer cells can't form. All cells contain the
chaperonin complex. But cancer cells have significantly higher levels because
as Dr. Khaled explains, "cancer cells are hungry for protein." In the
past few years, Dr. Khaled identified the chaperonin complex as a significant
indicator of a cancer's severity and has developed nanoparticle-based therapies
to seek out the chaperonin complex in cancer cells and destroy it. Without this
protein-folding mechanism, cancer cells starve and die.
"The more
chaperonin complex, the more advanced the cancer," Dr. Khaled said.
"By using the chaperonin complex to detect cancer cells in blood, we get a
warning that the cancer may be spreading. Using the chaperonin complex to
detect cancer cells in blood is a unique solution for a non-invasive
diagnosis."
Markers to identify
cancer cells in blood are commonly based on epithelial features in cells that
line surfaces of the body from which cancers arise. But such markers to detect
cancer cells in blood are fairly "generic," Dr. Khaled explained
"and provide little information about the cancer itself." Cancer
cells that are shed into blood can come from any part of the tumor and don't
survive past a few hours. So, using a marker like the chaperonin complex that
identifies dangerous cancer cells circulating in blood could alert doctors that
a patient is relapsing or not responding to treatments.
Dr. Khaled is head of
the College of Medicine's Division of Cancer Research. Her study began by using
blood and tissues from metastatic breast cancer patients being treated at
Orlando Health's UF Cancer Center to test if the chaperonin complex was better
than traditional markers to identify cancer cells in blood. Then with blood
from lung cancer patients, she validated this idea and found that using the
chaperonin complex detected more lung cancer cells compared to standard methods
for liquid biopsy.
https://www.sciencedaily.com/releases/2022/07/220718122243.htm
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