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20 January 2010

Scientists at the Queensland Brain Institute, The University of Queensland, have found a way to measure the attention span of a fly, which could lead to further advances in the understanding of attention-deficit hyperactivity disorder (ADHD) and autism in humans.

Scientists at the Queensland Brain Institute, The University of Queensland, have found a way to measure the attention span of a fly, which could lead to further advances in the understanding of attention-deficit hyperactivity disorder (ADHD) and autism in humans.

The researchers combined genetic techniques with brain recordings and found different mutations that either increase or decrease a fly’s attention span. Interestingly, all of these mutations produce learning and memory problems.

Using the genetic fruit fly model Drosophila melanogaster, lead researcher Assoc. Professor Bruno van Swinderen found that a fly’s level of distractibility is finely tuned to allow ‘normal’ behavioural responses to a constantly changing environment.

Assoc. Professor van Swinderen said: “We now have the two ends of an attention spectrum in our model. We have a fly memory mutant that is hard to distract and another fly memory mutant that’s too distractible. They both have the same result – they don’t learn well but for completely different reasons, not unlike human patients afflicted with autism and ADHD.

“You need a certain amount of distractibility to be able to assimilate your world – concentrating too much or too little affects your ability to process and retain information.”

Understanding the processes regulating attention and memory in the fly brain will allow researchers to better understand how memory and attention work together to govern behaviour.

Assoc. Professor van Swinderen fed the fruit flies methylphenidate, which is sold under the brand name Ritalin and used to treat children with ADHD. He found the drug had similar affects on fruit flies as it did on people: it helped the distractible flies to pay attention to visual stimuli.

“It suggests there may be similar pathways in the brains of fruit flies and humans, which means we now have a simple reductionist model, with all the genetic tools that go along with it, to try to understand what exactly this drug is doing,” he said.

“We know that this drug affects different pathways. Now we can really try to ask how does that translate to other brain phenomena, such as how neurons talk to one another. It will help us form the bigger picture.”

That could further unlock clues into how we develop – and retain – memories.

Professor van Swinderen’s findings are published in the Journal of Neuroscience on 20 January 2010 (21 January 2010 AEST).

Ends

Media Contact:
Anna Bednarek
Communications Manager
Phone: +61 7 3346 6414
Email: a.bednarek@uq.edu.au

Notes to the Editor
DR DHANISHA JHAVERI
Dr Dhanisha Jhaveri, a postdoctoral fellow and recipient of the human frontiers science programme long-term fellowship, has been working with Professor Perry Bartlett since 2003. She was awarded the Indian National Science Academy’s medal for young scientist of the year in 2003 for her doctoral thesis.    

PROFESSOR PERRY BARTLETT
Professor Perry Bartlett is internationally renowned in the field of cellular and molecular neuroscience, a fact highlighted by his election as a Fellow of the Australian Academy and the awarding of a prestigious Australian Research Council Federation Fellowship in 2003.  In 2002 he was appointed Foundation Chair in Molecular Neuroscience at The University of Queensland and the inaugural Director of the Queensland Brain Institute in 2003.

QUEENSLAND BRAIN INSTITUTE
The Queensland Brain Institute (QBI) was established as a research institute of the University of Queensland in 2003. The Institute is now operating out of a new $63 million state-of-the-art facility and houses 27 Principal Investigators with strong international reputations. QBI is one of the largest neuroscience institutes in the world dedicated to understanding the mechanisms underlying brain function.