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The Naked Mole Rat's Latest Superpower

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Naked mole rats (Heterocephalus glaber) are unlikely to win any beauty contests in the animal world, but they have some amazing abilities. Naked mole rats belong to a group of about a dozen species of burrowing African rodents called blesmols. They have strong blunt heads with incisor teeth that protrude in front of their mouth and are used for digging. The naked mole rats are small, typically weighing about 80 grams (2.8 ounces), and generally bald, with pinkish wrinkled skin. They are renowned for their extremely low cancer rates, their slow rate of aging, and their pain resistance. As if that weren’t enough, it was recently discovered that they possess one additional superpower.

In 2013 a cell biologist from the University of Rochester revealed that the sugar molecule hyaluronan is the key to the animal’s cancer resistance. Although hyaluronan can be found in all animals, playing a role in how cells multiply and stick together, the hyaluronan molecule is supersized in naked mole rats, and it is not broken down by enzymes as quickly as it is in other animals. It appears that the buildup of hyaluronan inside the bodies of the naked mole rats keeps their cells from clumping together to form tumors.

Then, in 2017, German and American researchers found that another form of sugar processing gives naked mole rats the ability to survive in low-oxygen conditions such as those that occur underground. So enhanced is this ability that they can survive without oxygen for more than 18 minutes. The brain cells of other mammals begin to die without oxygen, because oxygen is required in glycolysis (a process that releases energy that fuels cells) to break down the sugar glucose. Naked mole rats also rely on glycolysis, but, when they are placed in oxygen-free conditions, they can switch to a modified pathway that relies on the sugars fructose and sucrose. The animals also have a fructose-transporting molecule called GLUT-5 that shapes fructose in such a way that it can enter glycolysis later on when oxygen is not required. This change allows a naked mole rat to continue to make energy to keep its brain cells alive for a longer time.