Naked mole-rats are marvellous and bizarre mammals; they don't get tumours, they live like social insects and are "cold-blooded" like frogs. And that's just for starters. Credit:J. Adam Fenster / University of Rochester Mice live a maximum of three years. Old Man, the world's oldest mole rat, died at 32. And naked mole rats thrive in oxygen-poor air, even at levels that would be lethal to mice or humans. If the naked mole rats behave like a strange medley of wrinkled rodent, termite and toad, throw vegetable into that mix, too. When oxygen is scarce, as scientists reported in the journal Science, on Thursday, the mole rats switch their energy source from glucose - what humans and virtually all other mammals use - to fructose. That's the sugar that plants use. The air you're breathing right now is, in all likelihood, about 21 per cent oxygen. The US Occupational Health & Safety Administration defines "oxygen-deficient" air as less than 19.5 per cent. Humans, unless they go through a careful acclimation process, stop functioning well at about 10 per cent. Thrust into a cage with air at 5 per cent oxygen, humans would die. When Thomas Park, an expert on naked mole rats, placed the first animal in a chamber containing only 5 per cent oxygen, the mood, he said, was "tense".

The scientists began their stopwatches and waited for the slightest twitch of distress. The animal, though, seemed unaware that three-quarters of the oxygen in its environment had vanished. Fifteen minutes passed. The animal was unperturbed. Minutes bled into hours. The scientists called time after 300 minutes. "They didn't even go to sleep," Park, a University of Illinois at Chicago neurobiologist and co-author of the new study, told The Washington Post. The researchers tested the animals at even less oxygen: 0 per cent. The mole rats fell into a sort of suspended animation while totally oxygen deprived. Their heart rate dropped from 200 beats a minute to about 50. Once the scientists added oxygen back into the mole rats' atmosphere, the rodents made a swift recovery. "They were able to survive up to 18 minutes without any apparent neurological damage," said Jane Reznick, a study co-author and molecular biologist at the Max Delbruck Centre for Molecular Medicine in Berlin.

Scientists knew that naked mole rats could get by without much oxygen. Previous research indicated that the mole rats' red blood cells, which transport oxygen, sported an ultra-sticky version of haemoglobin that seems to make the cells extra efficient. The oxygen in the mole rat's tunnels may dip as low as 8 to 10 per cent, Park said. No one has been able to probe the air in their crowded subterranean nests, where the oxygen may dive even lower. What Park did not expect were the fructose molecules flooding the bodies of the oxygen-deprived rodents. Using a technique called mass spectrometry, Park and his colleagues analysed tissue from the mole rats' vital organs, including their brains and hearts. They tuned the spectrometer to search for hundreds of different metabolites. "Boy, that was a big pile of data across the desk," Park said. But the researchers didn't need to spend a long time sifting. "The fructose curves just jumped out." Like glucose, fructose is a sugar. But organisms that turn fructose into fuel - plants, and the mole rats - do so without requiring oxygen as a key metabolic component. Human brains, of course, need oxygen to live. "We've put all of our chips into the glucose pathway," Park said.

Though our cells have the genetic information required to build the fructose pathway, those are mostly inactive in vital organs such as brains and hearts. For us, our livers process fructose into what eventually ends up as fat cells. But, because our cells have that information, Park wonders: "In a time of crisis, could we turn ourselves a little bit into naked mole rats?" The idea that scientists can transform naked-mole rat biology into human therapy is still fairly speculative. Park noted that the mole rat is still little-studied as an animal model. Scientists discovered their unusual pain tolerance as recently as 2009, and researchers have only had their genome sequence since 2011. He envisioned that this research could be a launching point for other neurobiologists and scientists. (Another intriguing finding: mole rat lungs do not fill with fluid when deprived of oxygen, a severe symptom called pulmonary edema suffered by some high-altitude mountain climbers.) The mysteries of the naked mole rats will continue. "We still don't know where the fructose comes from," Reznick said. Perhaps the mole rats have some sort of fructose storage system. If the rodents' bodies somehow produced fructose, that would be even stranger. But it's hard to rule out oddity when it comes to the mole rats. The Washington Post