To figure out the rat's secret, [Oxford University study researcher Jonathan] Kingdon and his colleagues observed the rats in the wild and ran lab tests on a line of hairs that run along its back and seemed to have a unique structure. They also tested the chemicals in the hairs' poisons alongside that of the bark of the Acokanthera schimperi, which the rats are known to chew.
They found that to make its poison fur, the rat — which averages about 14 inches (36 cm) long — chews the bark of the A. schimperi and licks itself to store the resulting poisonous spit in specially adapted hairs. This behavior is hardwired into the animal's brain, similar to nitpicking behavior of birds or self-bathing of cats, the researchers suspect.
"What is quite clear in this animal is that it is hardwired to find the poison, it is hardwired to chew it and it is hardwired to apply it to the small area of hairs," Kingdon said. The animals apply the poisonous spit only to the specialized hairs on a small strip along its back. When threatened, the rat arches its back and uses specially adapted muscles to slick back its hair and expose the strip of poison.
Poison from this tree bark has been used by hunters to take down large prey, like elephants, for thousands of years. "Evolution has mimicked something that hunters do," Kingdon said. "It [the crested rat] is borrowing from the plant just as the hunters are borrowing from the very same plant."
The hairs themselves are specially structured to absorb the poison, Kingdon found. Their outer layer is full of large holes, like a pasta strainer, and the inside is full of straight fibers that wick up liquids. "There is no other hair that is known to science that is remotely structured like these hairs," Kingdon said.
It is unknown why the rat doesn't die from chewing the poison, though it could be resistant somehow. "The rats should drop dead every time they chew this stuff but they are not," Kingdon said. "We don't have the slightest idea how that could be done."
Learning more about how this poison works could even help human medicine, since it acts by inducing heart attacks. A related chemical, called digitoxin, has been used for decades as a treatment for heart failure.
The study was published Aug. 2 in the journal Proceedings of the Royal Society B: Biological Sciences. Link