Home » News » Psychotherapy News » New Brain Findings on Long-Term Memory


New Brain Findings on Long-Term Memory

By Senior News Editor
Reviewed by John M. Grohol, Psy.D. on August 27, 2010

New Findings on Long-Term MemoryScientists have discovered a mechanism that plays a critical role in the formation of long-term memory.

The findings provide new insights on how memory is formed, information that could lead to novel treatments for memory disorders.

In the study, Scripps Research Institute scientists found that a main driver of memory formation is myosin II, a motor protein critical to cell movement and growth.

“By showing for the first time that myosin II acts as the principal organizer of memory formation, we are that much closer to identifying the signaling pathways that activate this motor protein in the brain,” said Gavin Rumbaugh, an assistant professor at Scripps Florida.

“Once we’re able to do that, we can begin to develop potential treatments that could restore memory in people who suffer from cognitive disorders like Alzheimer’s disease.”

In the study, published in the journal Neuron, Rumbaugh and his colleagues showed that myosin II mediates a mechanical process that is part of the complex process of memory formation.

Specifically, myosin II links together the initiation of long-term potentiation, a process that enhances signal transmission between two neurons in the creation of memory; the stabilization of synaptic plasticity (the ability of synapses to maintain this enhanced transmission); and the reorganization of neurons’ F-actin, a cellular polymer that enables growth of synapses.

“Stimulation in the brain turns on these myosin motors and this triggers the growth of F-actin that ultimately solidifies the enhancement of neuronal communication,” Rumbaugh said.

“Growth and strengthening of synapses is a process that the brain uses to record our experiences. We are just now beginning to understand the physical substrates within synapses that enable the storage of our life experiences.”

He added that the role of F-actin described in the study is consistent with the longstanding idea that long-term potentiation is dependent on changes to the synaptic architecture, suggesting the dynamic reorganization triggered by myosin II represents an early step in information encoding.

“Many parallel brain processes have to be activated to store information,” he said.

“If any one of them is disrupted, the information doesn’t get stabilized and the memory is lost. Myosin II is a central regulator of this process and if you could pharmacologically control myosin II, you could potentially regulate memories at will.”

Source: Scripps Research Institute

 

APA Reference
Nauert, R. (2010). New Brain Findings on Long-Term Memory. Psych Central. Retrieved on September 15, 2014, from http://psychcentral.com/news/2010/08/27/new-brain-findings-on-long-term-memory/17336.html