Concordia University. Canada: A Concordia study unveiled the anti-tumour potential of lithocholic acid.
Where can you find the next important weapon in the fight against cancer? Just do a little navel-gazing. New research from Concordia confirms that a tool for keeping the most common forms of cancer at bay could be in your gut.
In a report published in the International Journal of Molecular Sciences,
Vladimir Titorenko, a professor of biology at Concordia, and his
colleagues show that lithocholic acid, a bile acid produced in the
liver, is particularly effective in killing cancer cells.
For the study, the research team tested thousands of chemicals found
in the body with the help of a robot and discovered more than 20 that
could delay the aging process, something inevitably linked to cancer.
Most effective was lithocholic acid. When entering a cancer cell, the
acid goes to "energy factories" called mitochondria and then sends
molecular signals that lead to the cells’ demise.
It not only helped slow the aging process but also had an anti-tumour
effect, killing cells of breast, prostate and neuroblastoma cancer — in
a petri dish, that is.
Indeed, these results aren’t applicable to humans — yet. Titorenko
performed the first round of studies using yeast because the ways aging
progresses, and the ways it can be delayed by some diets, are similar in
both yeast and humans.
"Various cancers are associated with aging — the older you get, the
more instances we see of diseases like breast and prostate cancer — so
studying how diet can slow that aging process is important,” says
Titorenko, who holds a Concordia Research Chair in genomics, cell
biology and aging.
In collaboration with Thomas Sanderson from the INRS-Institut
Armand-Frappier in Laval, Titorenko is now testing whether the same bile
acid can delay the development of prostate cancer in laboratory mice.
If those trials confirm the anti-tumour effect of lithocholic acid,
the hope is that it will have a similar effect in human patients, along
with the possibility of slowing the human aging process in general.
The study progresses the fundamental knowledge of how to naturally
slow down aging of non-cancerous cells as well as how to kill cancer
cells.
"We are attempting to understand what kind of molecular processes
within our cells are responsible for cell aging and aging-associated
death," Titorenko says.
"Satisfying our curiosity as scientists pursuing new fundamental
knowledge fits with our other objective: to find ways that natural
chemical products can delay aging and the diseases associated with it."
Partners in research: The study was supported by grants from
the Natural Sciences and Engineering Research Council (NSERC) of Canada
and the Concordia University Chair Fund. It has been done in
collaboration with David Thomas from McGill University, Andrea LeBlanc
from the Lady Davis Institute for Medical Research - Jewish General
Hospital, Troy Harkness of the University of Saskatchewan and Thomas
Sanderson of the INRS-Institut Armand-Frappier.