meszkentucky2.jpg94712

Songbirds reveal how practice improves performance

Songbirds reveal how practice improves performance

 Learning complex skills like playing an instrument requires a sequence of movements that can take years to master. Last year, MIT neuroscientists reported that by studying the chirps of tiny songbirds, they were able to identify how two distinct brain circuits contribute to this type of trial-and-error learning in different stages of life.

Now, the researchers have gained new insights into a specific mechanism behind this learning. In a paper being published in the Proceedings of the National Academy of Sciences during the week of July 6, the scientists report that as zebra finches fine-tune their songs, the brain initially stores improvements in one brain pathway before transferring this learned information to the motor pathway for long-term storage.

The work could further our understanding of the complicated circuitry of the basal ganglia, brain structures that play a key role in learning and habit formation in humans. The basal ganglia are also linked to disorders like Parkinson’s disease, obsessive-compulsive disorder and drug addiction.

“Birds provide a great system to study the fundamental mechanisms of how the basal ganglia contributes to learning,” said senior author Michale Fee, an investigator in the McGovern Institute for Brain Research at MIT. “Our results support the idea that the basal ganglia are the gateway through which newly acquired information affects our actions.”

Young zebra finches learn to sing by mimicking their fathers, whose song contains multiple syllables in a particular sequence. Like the babbling of human babies, young birds initially produce a disorganized stream of tones, but after practicing thousands of times they master the syllables and rhythms of their father’s song. Previous studies with finches have identified two distinct brain circuits that contribute to this behavior. A motor pathway is responsible for producing the song, and a separate pathway is essential for learning to imitate the father. This learning pathway, called the anterior forebrain pathway (AFP), has similarities to basal ganglia circuits in humans.

“For this study, we wanted to know how these two pathways work together as the bird is learning,” explained first author Aaron Andalman, a graduate student in Fee’s lab. “So we trained the birds to learn a new variation in their song and then we inactivated the AFP circuit to see how it was contributing to the learning.”

 

meszkentucky2.jpg94712