National Geographic Today
Handsome, they're not. But toadfish could hold the answer to a medical mystery.
What makes the toadfish unique is that it can survive in ammonia concentrations that would kill almost every other creature, including man. That fact is important because high ammonia concentrations are associated with many diseases including liver problems.
"The remarkable thing about these fish is that they can tolerate between 10 and 20 times more ammonia than our bodiesthey are the champions of ammonia tolerance," said Patrick Walsh, a marine biologist at the University of Miami in Coral Gables, Florida, who has been studying toadfish for years.
"If we can figure out the mechanisms toadfish are using, then we can develop a clinical strategy or drug, to make humans tolerate more ammonia during disease onsets," said Walsh.
When the liver is damaged, whether by environment, genetics, or alcoholism, it is unable to filter and excrete ammoniaa waste product. The tissue most sensitive to ammonia is the brain.
Liver Fails, the Brain Fails
That's why doctors say, "when the liver fails, the brain fails." By understanding how the toadfish tolerates ammonia, scientists hope to halt its toxic effects in humans.
"When our brains encounter ammonia they convert it to the amino acid glutamine. It's believed the glutamine buildup in the brain causes cells to swell, and as the brain swells it causes pressure to build up which cuts off circulation to vital parts of the brain," said Walsh.
In the human brain glutamine is sort of a dead-end product, but the toadfish might be able to rid the brain of glutamine and metabolize it in other organs such as in muscles, kidneys, and liver, said Walsh. "What we might be able to do is to mimic what the toadfish is doing with a drug that enhances our brain's ability to rid itself of glutamine," he added.
Examining a slice of brain under the microscope, Miguel Perez, a professor of neurology and neuroscience at the UM School of Medicine, compares brains from rats and toadfish, searching for clues as to how the toadfish protects itself from ammonia.
Perez says this toadfish research could have profound medical implications. "Understanding the mechanisms of how the toadfish survives these toxins will help us develop therapies for stroke, liver disease, heart attack and brain injury," said Perez.
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