Australasian Science - May 2016

A Pill toTreat Sugar Addiction

Drugs used to treat nicotine addiction could be used to treat sugar

addiction in animals, according toresearch from Queensland

University of Technology.

“The latest World Health Organisation igures tell us 1.9 billion

people worldwide are overweight, with 600 million considered

obese,” said Prof Selena Bartlett of QUT’s Institute of Health and

Biomedical Innovation, who is corresponding author of the study

published inPLOS ONE(http://tinyurl.com/jmolxof).

“Excess sugar consumption has been proven to contribute

directly to weight gain,” Bartlett said. “It has also been shown to

repeatedly elevate dopamine levels, which control the brain’s reward

and pleasure centres in a way that is similar to many drugs of abuse,

including tobacco, cocaine and morphine.

“After long-term consumption, this leads to the opposite: a

reduction in dopamine levels. This leads to higher consumption

of sugar to get the same level of reward.

“We have also found that as well as an increased risk of weight

gain, animals that maintain high sugar consumption and binge eating

into adulthood may also face neurological and psychiatric conse-

quences affecting mood and motivation. Our study found that Food

and Drug Administration-approved drugs like varenicline (a prescrip-

tion medication trading as Champix, which treats nicotine addic-

tion) can work the same way when it comes to sugar cravings.”

PhD researcher Masroor Shariff said the study also put artiicial

sweeteners under the spotlight. “Interestingly, our study also found

that artiicial sweeteners such as saccharin could produce effects

similar to those we obtained with table sugar, highlighting the impor-

tance of re-evaluating our relationship with sweetened food per se.”

Bartlett said that varenicline acted as a neuronal nicotinic

receptor modulator (nAChR), and similar results were observed

with similar drugs such as mecamylamine and cytisine. “Like other

drugs of abuse, withdrawal from chronic sucrose exposure can

result in an imbalance in dopamine levels and be as diicult as

going ‘cold turkey’ from them,” she said.

“Further studies are required, but our results do suggest that

current FDA-approved nAChR drugs may represent a novel new

treatment strategy to tackle the obesity epidemic.”

MAY 2016|| 7

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What if snakes or whales could regrow legs, or chickens develop

teeth, or humans re-evolve tails like our primate ancestors?

Reversible evolution is possible under certain conditions – even after

many millions of years – according to a study published inEvolu-

tion(http://tinyurl.com/zkdj5hy).

An international team of scientists found that some of the

largest kangaroos ever to evolve resurrected crests on their teeth that

were present in their distant ancestors more than 20 million years

earlier. They speculate that changes in climate, habitat and diet

provided the selection pressures that resurrected these dental

features. As forests retreated towards the coastline over millions of

years, kangaroos were forced to eat more grass, and their teeth

needed to cut rather than grind their food.

Biologists have often discounted the potential for evolution to

shift into reverse, dismissing such occurrences as cases of conver-

gent evolution. However, co-author A/Prof Gavin Prideaux of

Flinders University argues that “reanimating genetically moth-

balled features may be ‘allowed’ by evolution when it aligns with

pressures that determine an animal’s ecology”.

PhD candidate Aidan Couzens found that “small changes to a

‘rule’ that determines how teeth form in the embryo have allowed

some kangaroos to partly turn back the clock on evolution. Using

these rules, we can start to predict the pathways evolution can take.

“We found that, contrary to Dollo’s law in biology, features

lost in evolution can re-evolve when evolution ‘tinkers’ with the

way features are assembled in the embryo,” Couzens says.

Prideaux says that kangaroos and wallabies have been studied

as barometers of historical climatic change in Australia. “They

have been around for at least 30 million years,” he says. “We are

discovering more about how early forms were adapted to the abun-

dant soft-leaved forest plants, and how later macropods adapted

to more arid conditions.”

Evolution Goes Back to the Drawing Board

Compiled by Guy Nolch

ksena32/adobe