Scientists researching snakes say ‘toxic people’ may become a reality if humans evolve venom glands

A Taiwan habu snake, which scientists used to collect venom for research into the theory that venom glands evolved from early salivary glands (Photo: OIST/Steven Aird/PA Media)A Taiwan habu snake, which scientists used to collect venom for research into the theory that venom glands evolved from early salivary glands (Photo: OIST/Steven Aird/PA Media)
A Taiwan habu snake, which scientists used to collect venom for research into the theory that venom glands evolved from early salivary glands (Photo: OIST/Steven Aird/PA Media)

We’ve all heard the phrase, but now, new scientific research suggests that the "toxic people” in our lives could become much more literal in years to come.

Mice and even humans have the potential to become venomous – giving a new meaning “toxic person” – according to scientists, who have found the genetic foundation needed for oral venom to evolve is present in both reptiles and mammals.

Researchers said their study shows the first concrete evidence of a link between venom glands in snakes and salivary glands in mammals.

Will people literally become ‘toxic’?

The research, published in the PNAS journal, indicates that while neither humans or mice are venomous currently, our genomes have the potential under certain ecological conditions.

Study author Agneesh Barua joked: “It definitely gives a whole new meaning to a toxic person," and described venom as “a cocktail of proteins” used by animals to immobilise and kill prey, as well as for self-defence."

Mr Barua said experiments in the 1980s had shown that male mice “produce compounds in their saliva that are highly toxic when injected into rats”.

He added: “If under certain ecological conditions, mice that produce more toxic proteins in their saliva have better reproductive success, then in a few thousand years, we might encounter venomous mice.”

He added that although it is unlikely, if the right ecological conditions ever existed, humans also have the potential to become venomous.

‘Venom glands evolved from salivary glands’

For their research, instead of focusing on genes that code for the proteins that make up the toxic mixture, scientists from the Okinawa Institute of Science and Technology Graduate University (OIST) and the Australian National University looked for genes that work alongside and interact with the venom genes.

They used venom glands from the Taiwan habu snake – a pit viper found in Asia – and identified about 3,000 of these “co-operating” genes, noting they played important roles in protecting the cells from stress caused by producing lots of proteins.

The researchers also looked at the genomes of other creatures including mammals like dogs, chimpanzees and humans, and found they contained their own versions of such genes.

Having investigated the salivary gland tissues within mammals, they saw the genes had a similar pattern of activity to that seen in snake venom glands – therefore concluding that salivary glands in mammals and venom glands in snakes share an ancient functional core.

Mr Barua said: “Many scientists have intuitively believed this is true, but this is the first real solid evidence for the theory that venom glands evolved from early salivary glands.

“While snakes then went crazy, incorporating many different toxins into their venom and increasing the number of genes involved in producing venom, mammals like shrews produce simpler venom that has a high similarity to saliva.”

A version of this article originally appeared on our sister title, NationalWorld

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