News Release
 

February 22, 2010

CONTACT: Karen Kreeger
(215) 349-5658
karen.kreeger@uphs.upenn.edu

Penn Medicine - University of Pennsylvania School of Medicine and University of Pennsylvania Health System


This release is available online at
http://www.uphs.upenn.edu/news/News_Releases/2010/02/sleep-brain-development/

The Role of Sleep in Brain Development

SAN DIEGO - Marcos Frank, PhD, associate professor of Neuroscience at the University of Pennsylvania School of Medicine, presented information on early brain development and the importance of sleep during early life when the brain is rapidly maturing and highly changeable, at the 2010 American Association for the Advancement of Science meeting in San Diego this week.

Building on his research indicating that the brain during sleep is fundamentally different from the brain during wakefulness, Frank has found that cellular changes in the sleeping brain may promote the formation of memories. "This is the first real direct insight into how the brain, on a cellular level, changes the strength of its connections during sleep," Frank says.

When an animal goes to sleep it's like a switch is thrown, and everything is turned on that's necessary for making synaptic changes that form the basis of memory formation. The team used an animal model of cortical plasticity – the making and breaking of neural connections in response to life experiences.

They found that once the brain is triggered to reorganize its neural networks in wakefulness (by visual deprivation, for instance), intra- and intercellular communication pathways engage, setting a series of enzymes into action within the reorganizing neurons during sleep. The key cellular player in this process is a molecule called N-methyl D-aspartate receptor (NMDAR), which acts like a combination listening post and gate-keeper. It both receives extracellular signals in the form of glutamate and regulates the flow of calcium ions into cells. As soon as the animal had a chance to sleep, we saw all the machinery of memory start to engage, notes Frank.

The Frank lab aims to relate these findings about memory formation at the molecular level to why humans need sleep and why they are so affected by the lack of it.

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