According to a reasearch published in the journal Molecular and Cellular Oncology, on January 23, 2015, an ingredient in extra-virgin olive oil, called Oleocanthal, kills a variety of human cancer cells without harming healthy ones.
In 2015 the researchers, nutritional scientist Paul Breslin (Rutgers University), biologist David Foster (Hunter College) and chemist Onica LeGendre (Hunter College) discovered in a lab study that the ingredient, called oleocanthal, causes a rupture of a part of the cancerous cell which releases enzymes and causes cell death, without harming healthy cells. In this way, cancer cells are killed by their own enzymes.
Scientists knew that oleocanthal killed some cancer cells, but weren’t really sure how. They thought the compound might be targeting a key protein in cancer cells that triggers a programmed cell death, known as apoptosis, and decided to test their hypothesis.
“We needed to determine if oleocanthal was targeting that protein and causing the cells to die,” says Paul Breslin, professor of nutritional sciences in the School of Environmental and Biological Sciences at Rutgers and coauthor of a new study published in Molecular and Cellular Oncology.
Dead in 30 minutes
Oleocanthal rapidly and selectively induces cancer cell death via lysosomal membrane permeabilization.
After applying oleocanthal to the cancer cells, the researchers discovered that the cancer cells were dying very quickly—within 30 minutes to an hour. Programmed cell death takes between 16 and 24 hours, so the scientists realized that something else had to be causing the cancer cells to break down and die.
They discovered that the cancer cells were being killed by their own enzymes. The oleocanthal was puncturing the vesicles inside the cancer cells that store the cell’s waste—the cell’s “dumpster,” or “recycling center.”
The vesicles, known as lysosomes, are larger in cancer cells than in healthy cells—and they contain a lot of waste.
“Once you open one of those things, all hell breaks loose,” Breslin says.
Even better, the compound doesn’t harm healthy cells—it only stops their life cycles temporarily, or “put them to sleep,” Breslin says. After a day, the healthy cells resumed their cycles.
The next logical next step is to go beyond laboratory conditions and show that oleocanthal can kill cancer cells and shrink tumors in living animals, says senior author David Foster of Hunter College.
“We also need to understand why it is that cancerous cells are more sensitive to oleocanthal than non-cancerous cells.”
Onica LeGendre of Hunter College is the study’s first author.
You can read about the full study here.