Gar fish reveal true age of our eye-brain connection
New research with gar fish indicates that our eye-brain connection evolved far earlier than textbooks now say.
The sophisticated network of nerves connecting our eyes to our brains evolved much earlier than previously thought, research finds, thanks to an unexpected source: the gar fish.
The new research shows that this connection scheme was already present in ancient fish at least 450 million years ago. That makes it about 100 million years older than previously believed.
“It’s the first time for me that one of our publications literally changes the textbook that I am teaching with,” says Ingo Braasch, an assistant professor in the integrative biology department in the College of Natural Science at Michigan State University.
This work, published in the journal Science , also means that this type of eye-brain connection predates animals living on land. The existing theory had been that this connection first evolved in terrestrial creatures and, from there, carried on into humans where scientists believe it helps with our depth perception and 3D vision .
And this work, which was led by researchers at France’s Inserm public research organization, does more than reshape our understanding of the past. It also has implications for future health research.
Studying animal models is an invaluable way for researchers to learn about health and disease but drawing connections to human conditions from these models can be challenging.
Zebrafish are a popular model animal, for example, but their eye-brain wiring is very distinct from a human’s. In fact, that helps explain why scientists thought the human connection first evolved in four-limbed terrestrial creatures, or tetrapods.
“Modern fish, they don’t have this type of eye-brain connection,” Braasch says. “That’s one of the reasons that people thought it was a new thing in tetrapods.”
Braasch is one of the world’s leading experts in a different type of fish known as gar. Gar have evolved more slowly than zebrafish, meaning gar are more similar to the last common ancestor that fish and humans share. These similarities could make gar a powerful animal model for health studies, which is why Braasch and his team are working to better understand gar biology and genetics.
To do the study, Chédotal and his colleague, Filippo Del Bene, used a groundbreaking technique to see the nerves connecting eyes to brains in several different fish species. This included the well-studied zebrafish, but also rarer specimens such as Braasch’s gar and Australian lungfish from a collaborator at the University of Queensland.
In a zebrafish, each eye has one nerve connecting it to the opposite side of the fish’s brain. That is, one nerve connects the left eye to the brain’s right hemisphere and another nerve connects its right eye to the left side of its brain.
The other, more “ancient” fish do things differently. They have what’s called ipsilateral or bilateral visual projections. Here, each eye has two nerve connections, one going to either side of the brain, which is also what humans have.
Armed with an understanding of genetics and evolution, the team could look back in time to estimate when these bilateral projections first appeared. Looking forward, the team is excited to build on this work to better understand and explore the biology of visual systems.
“We’re finding more and more that many things that we thought evolved relatively late are actually very old,” Braasch says. “I learn something about myself when looking at these weird fish and understanding how old parts of our own bodies are.”
Source: Matt Davenport for Michigan State University
The post Gar fish reveal true age of our eye-brain connection appeared first on Futurity .
Share this article: