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How an unlikely amphibian survived its judgment day

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Credit: Marco Mancuso

An international team of researchers has uncovered “unprecedented” snake venom resistance in an unexpected species—the legless amphibians known as caecilians. The research has been published in the International Journal of Molecular Sciences.

The University of Queensland’s Associate Professor Bryan Fry led the study, which he said provides a solid model for the fundamental evolutionary concept of predator-prey interactions.

“Our research provides a textbook example of how a single predatory pressure can trigger an evolutionary cascade where the same way of fighting back arises independently multiple times in a species’ different lineages,” Dr. Fry said.

“In this case, the key predatory pressure was the rise of the elapid snakes, such as cobras and coral snakes, characterized by the evolution of a new way of delivering venom via their hollow, fixed, syringe-like fangs.

“Despite being quite slippery, caecilians are worm-like in their locomotion and speed and were incredibly easy prey to cobras and other snakes, which used their fangs to kill them and eat them later.

“It would have been absolute carnage to the point where elapids were basically grazing on caecilians, contributing to the rapid spread of elapid snakes across Africa, Asia, and the Americas.

“The caecilian’s ability to persevere and evolve despite these pressures is like a movie—like the survivors of Judgment Day fighting back by changing the chemical landscape.”

The team studied caecilian species from across all known families across the globe, including species in the Seychelles islands never reached by elapid snakes.

Lead author, Marco Mancuso from Vrije Universiteit Brussel’s Amphibian Evolution Lab, said the study involved using tissue collections to sequence a part of the neuromuscular receptor in caecilians bound by toxins in .

“We showed that resistance to elapid venom neurotoxins has evolved on at least 15 times—which is absolutely without precedent,” Mr. Mancuso said.

“A particularly interesting validation of the theory was that the caecilians on the Seychelles islands were not resistant to snake venom, which is consistent with elapid snakes never reaching those islands.

“It’s an extraordinary signal for response to such severe selection pressure, where the survivors of the onslaught were those who were a bit less sensitive to the venom and some had mutations that made them completely immune.

“These were the ones that repopulated the earth after the elapid snake plague.”

Dr. Fry said the caecilians were able to achieve this never-before-seen resistance by deploying three different kinds of biological methods.

“One kind is putting up a form of barricade that blocks the ability of the toxins to reach receptors that would normally elicit a deadly reaction,” he said. “A second form of resistance is changing the physical shape of the receptor.

“As the toxins have evolved to be like keys and insert into the lock-like receptor, changing the shape means the no longer fits.

“Lastly, caecilians essentially deploy an electromagnetic ‘weapon’ which reverses the charge during this toxin-receptor interaction.

“The positive-to-positive charge repulsion increases exponentially the closer the objects come together, like trying to force two magnets together.

“This pocket of the receptor is normally negatively charged, so snake toxins have evolved with a to help guide the binding.

“The mutation where the receptor is now positively charged like the toxins, electrostatically repels the toxins.”

Dr. Fry said while the results won’t lead to any new direct human benefits, such as new antivenom, the results have the benefit of showcasing an important evolutionary interaction in an engaging way to the next generation of scientists.

“Animals killing other animals, and the prey evolving to escape the predators, is something that I think is always fascinating to people, especially young people just getting into science.”

More information:
Marco Mancuso et al, Resistance Is Not Futile: Widespread Convergent Evolution of Resistance to Alpha-Neurotoxic Snake Venoms in Caecilians (Amphibia: Gymnophiona), International Journal of Molecular Sciences (2023). DOI: 10.3390/ijms241411353

Citation:
How an unlikely amphibian survived its judgment day (2023, July 24)
retrieved 24 July 2023
from https://phys.org/news/2023-07-amphibian-survived-judgment-day.html

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