| Scientists studying cell cultures from two species of blind mole rat, Spalax judaei and Spalax golani, have found they behave in ways that render them impervious to the growth of tumors. |
The creatures seem to have evolved a different way of doing this from that observed in their better known and similarly cancer-resistant cousin, the naked mole rat, Heterocephalus glaber.
Some 23% of humans die of cancer, but blind mole rats — which can live for 21 years, an impressive age among rodents — seem to be immune to the disease.
“These animals are subject to terrific stresses underground: darkness, scarcity of food, immense numbers of pathogens and low oxygen levels. So they have evolved a range of mechanisms to cope with these difficulties,” explains co-author Eviatar Nevo at the University of Haifa in Israel, who has published papers on the creatures since 1961. “I truly believe work with these animals will bring a dramatic revolution in medicine.”
Gorbunova was previously involved in another study that described the unusual way in which the cells of the naked mole rat behave in the lab. The authors say that this hints at how the rats resist cancer. When cells from most animals are grown in a culture dish, they divide until they form a single layer of cells covering the base of the dish. At this point, healthy cells stop dividing, whereas cancerous ones continue. But the cells of naked mole rats behave as if they are 'claustrophobic', ceasing to divide much sooner than cells from other species.
“We thought the blind-mole-rat cells would use the same mechanism as those of naked mole rats," said Gorbunova, “so the fact that they do not was a big surprise”. Instead of ceasing to divide, the cells of blind mole rats reach a point at which they die all together in a bout of cell suicide that Gorbunova and her co-authors call “concerted cell death”.
This seems to be triggered by the collective release of a signalling molecule called interferon-beta, although the reasons are not one hundred percent clear. “The cells have some way of sensing when they are over-proliferating, but we still don’t know precisely how they sense that,” Gorbunova says. “This is what we need to find out next, because it could provide some clue as to how we could activate the same process in human cells.”
SOURCE Nature
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