Maybe it’s the elephant’s genes that never forget.
In addition to having great memories, elephants are known for having a very low incidence of cancer. In what might seem a wild mash-up of the SyFy channel and National Geographic, new research has uncovered a surprising factor that protects elephants against the dread disease: a gene that had gone dormant in their ancestors but got turned back on as their evolving bodies grew ever bigger.
Scientists call it a “zombie gene” — cue the chilling music here — “a reanimated pseudo-gene that kills cells when expressed.”
The zombie gene is not just a curiosity.
Along with elephants, several kinds of whales, bats and the naked mole rat share enviably minuscule rates of cancer. Biologists suspect that each of those species has evolved a strategy to ward off malignancies, and they want to understand them all. In time, they might find ways to approximate those strategies in humans and drive down our vulnerability to cancer.
“That’s not easy,” said Vincent J. Lynch, who led the research published last week in the journal Cell Reports.
Nor, he added, would it always be safe. After all, mechanisms that thwart fast-growing cells or turbocharge cell repair have evolved over countless generations in fine balance with other checks and balances, Lynch said. Transfer one of these mechanisms willy-nilly to another species, and it would very likely run amok, he said.
“But if you don’t do the research, you’ll never know,” added Lynch, a geneticist and evolutionary biologist at the University of Chicago.
So Lynch’s team went looking for LIF (short for Leukemia Inhibiting Factor) genes in 53 mammals, including the African elephant, bowhead and minke whales, bats and naked mole rats.
In most species, they found a single active LIF gene. But in the African elephant — as well as in the manatee and the rock hyrax, both distant cousins of the elephant — they found seven to 11 extra copies of the LIF gene, called pseudo-genes.
In every species but the elephant, these LIF genes and their extra duplicates were inactive: That is, they didn’t turn on or off to produce proteins. In the march of evolution, they had fallen by the wayside and been left for dead, like vast stretches of every species’ genomes.
But in the elephant, Lynch and his colleagues saw that one of the extra copies of the LIF gene was active. When the researchers induced cell stress — a step that would have led to cancer in most other animals — a widely recognized tumor-suppressing mechanism turned on. That, in turn, activated the LIF6 pseudo-gene.
Stirred to life, the zombie gene carried out its grim program, entering the internal machinery of damaged cells and ordering them to kill themselves. In elephant tissue, the damaged cells turned themselves inside-out, and cancer was thwarted before it could gain any momentum.
And the researchers found that when they suppressed the action of the LIF6 “zombie gene,” stressed cells were more likely to form tumors in elephant tissue.
“It’s a fascinating study,” said molecular and cell biologist Vera Gorbunova of the University of Rochester in New York, who has studied how naked mole rats thwart cancerous cells.
The animals offer evidence that in their evolution, all complex creatures have made trade-offs, such as taking on genes (including anti-cancer genes) that increase their life span but reduce their reproductive prowess, or vice versa.
The reanimation of the LIF6 gene may be one way in which elephants have countered what would seem to be a growing threat as they evolved to become bigger, Lynch said.
Biological reasoning would suggest that bigger animals would have a greater propensity than very small ones to develop cancer — mainly because they are made up of more cells. Theoretically, the more cells there are, the higher the odds that one or more will go rogue and seed a tumor.
That is true within species: big dogs and tall humans are more likely to develop cancer than smaller members of their species. But strangely, very large species are not, in general, more likely to develop cancer than are small species — an observation made by epidemiologist Richard Peto that has come to be known as Peto’s Paradox.
In part, “elephants and their extinct relatives (proboscideans) may have resolved Peto’s Paradox” by giving LIF6 new life as a killer of would-be cancer cells, Lynch and his colleagues wrote.
Apparently, not all zombies are to be feared.