Brains of woodpeckers contain protein found in humans with brain damage - Action News
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Science

Brains of woodpeckers contain protein found in humans with brain damage

Researchers studying the brains of woodpeckers found elevated levels of tau, a protein also found in people with brain damage. They now hope this could help neuroscientists better understand the mechanics of this protein.

Scientists wonder if the head-banging birds can shed light on concussions or other brain conditions

A G-force of 60 to 100 can give a person a concussion, while woodpeckers experience anywhere from 1,200 to 1,400 Gs with each peck and yet don't show signs of brain damage. (Arlene Koziol/The Field Museum)

Their frantic drumming is a familiar sound of summer. But just how woodpeckers endure millions of head-banging episodes in their lifetime without suffering from brain damage isn't understood.

With each peck, woodpeckers experience aG-force, or force of acceleration,anywherefrom 1,200 to 1,400. And they do this hundreds of times a day, millions of times in their lifetime. In contrast, just 60 to 100 Gs can give a person a concussion.

New research has discovered that the brains of woodpeckers do indeed contain a buildup of a protein found in people with brain damage and some neurodegenerative diseases.

The proteintauis essential to the function of neurons. However, recent studies havefound a link between patients with traumatic brain injuries and a buildup of this particular protein, which is why the researchers chose to examine woodpeckers.

George Farah, lead author of the new study published in the scientific journalPLOSONE, wasa graduate student at the Boston University School of Medicine and wondered if the brain of a bird that's been around 25 million years also produces the protein or if its brain has adapted somehow to the repeated impact.

The brain of a Pileated woodpecker, like the one seen here, was one of 10 studied by researchers at the Boston University School of Medicine that showed signs of elevated levels of tau. (Dean Bouton/Shutterstock)

It turns out it's both.

"I didn't think we were going to find anything,"Peter Cummings, Farah's adviser and co-author of the study, toldCBCNews."We found tau what it means, I don't know," Cummings said.

That's because scientists had come to believe that woodpeckers wouldn't have an accumulation of tau in their brains. After all, their bodies have undergone evolutionary adaptation, such as changes in the beak, the neck muscles andthe skullover millions of years.

Every day we have new understandings of tau.- Peter Cummings, Boston University School of Medicine

Their research found eight of the 10 woodpecker brains obtainedfrom Chicago's Field Museum of Natural History and the Harvard Museum of Natural History contained elevated levels of tau. None of the control birds red-winged blackbirds contained elevated levels of tau.

"The fact that it is there is fascinating because there's the idea that if we're having all these evolutionary adaptations why would that stop at the brain?" said Cummings. "Why would the brain say, 'Eh, not gonna bother'?"

Despite the findings of tau accumulation, the birds don't exhibit any behaviours suggestive of brain damage. And this is what the researchers hope to further investigate, with the aim of better understanding the role it plays in brain damage in humans.

"The significance of tau and how it relates to symptoms is a question, and it's an area of research," Cummings said."Every day we have new understandings of tau."

Notall tau is created equal. Cummings explained that some typesof the protein are protective, while others accumulate and can become toxic. Couldthe woodpeckers have the protective form? Or could they have something entirely different that prevents them from suffering neurological repercussions?

That's exactly what Farahhopes further research will find.

"A population of 10 is a good number for an initial study, but if I wanted to conclude something about these birds I would want a larger sample size," he said.

The next step will be to find out what kind of type of tau it is or if there's a binding protein that helps stabilize it.

"Answering those two big questions could really help out not just braininjury research but also research into neurodegenerative diseases."