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| Earth on Oct 15, 2012

Snake venom discovery could aid drug development

Those who need drugs to treat cancer, diabetes and high blood pressure might soon have a reason to thank a snake.

UK-led scientists have made a discovery about snake venom that could lead to the development of new drugs to treat a range of life-threatening conditions like cancer, diabetes and high blood pressure.

Most venom contains a huge variety of lethal molecules called toxins, which evolve from harmless compounds that used to do different jobs elsewhere in the body.

Photo credit: dominqs

These toxins target normal biological processes in snakes’ prey, such as blood clotting or nerve-cell signalling, and stop them from working properly.

Now researchers have discovered that the toxins that make snake and lizard venom deadly can evolve back into completely harmless molecules, raising the possibility that they could be developed into drugs. Dr. Nicholas Casewell did the research at Liverpool School of Tropical Medicine, and he is now at Bangor University. He said:

Our results demonstrate that the evolution of venoms is a really complex process. The venom gland of snakes appears to be a melting pot for evolving new functions for molecules, some of which are retained in venom for killing prey, while others go on to serve new functions in other tissues in the body.

Scientists have long recognized that the way toxins work makes them useful targets for drug development. But the fact that they’re harmful poses a problem. This means that drug developers have had to modify toxins to retain their potency and make them safe for drug use.

One such drug called Captopril, which treats high blood pressure, was developed from a compound in lancehead viper venom which catastrophically lowers blood pressure in its prey. But its chemical structure had to be modified to make it safe to use as a drug.

But the researchers’ discovery that there may be many harmless versions of venom toxins throughout a snake’s body opens the door to a whole new era of drug discovery.

Photo credit: Tambako the Jaguar

Ex-venom proteins could be valuable because they’re made up of what scientists call bioactive proteins. They already target metabolic processes, which is precisely what you need drugs to do. Casewell said:

So rather than developing synthetic compounds into drugs, our finding suggests you could screen these harmless proteins against whatever target you’re interested in. This means using natural products.

Snake researchers were aware that venom toxins evolve from harmless molecules that do fairly mundane jobs elsewhere in the body. But until now they had assumed that this was a one-way process.

Venom has evolved independently many different times in different creatures. Its role is largely seen as a means by which its owner can feed, or protect itself against predators.

But snakes’ and reptiles’ prey tends to evolve resistance to venom, which means that venoms have to continually evolve to remain effective. Casewell said:

Snake venom toxins are the most rapidly-evolving proteins ever identified.

Casewell and colleagues from Bangor University and the Australian National University used recently published gene sequences from the Garter snake and the Burmese python in their study. They compared these sequences with those from venom glands in a wide range of snakes and lizards, constructing an evolutionary tree to work out the relationships between the various sequences.

They found that rather than staying stuck in the venom gland, some proteins evolve back into harmless molecules to do different roles in the body. Casewell explained:

Everyone had assumed that these recruitments from ordinary proteins to venomous proteins were rare. But now we know the process might not be that rare, and it goes backwards.

Dr. Wolfgang Wüster from Bangor University, a co-author of the study said:

Many snake venom toxins target the same physiological pathways that doctors would like to target to treat a variety of medical conditions. Understanding how toxins can be tamed into harmless physiological proteins may aid development of cures from venom.

The researchers’ findings were published in Nature Communications on September 18, 2012.