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Manipulating memory in the hippocampus

Date:
June 3, 2013
Source:
American Friends of Tel Aviv University
Summary:
Scientists have discovered that manipulating the levels of the protein tomosyn in a part of the brain associated with learning and memory may aid in the development of therapeutic procedures for epilepsy and neurodegenerative diseases such as Alzheimer's.

In the brain, cell-to-cell communication is dependent on neurotransmitters, chemicals that aid the transfer of information between neurons. Several proteins have the ability to modify the production of these chemicals by either increasing or decreasing their amount, or promoting or preventing their secretion. One example is tomosyn, which hinders the secretion of neurotransmitters in abnormal amounts.

Dr. Boaz Barak of Tel Aviv University's Sagol School of Neuroscience, in collaboration with Prof. Uri Ashery, used a method for modifying the levels of this protein in the mouse hippocampus -- the region of the brain associated with learning and memory. It had a significant impact on the brain's activity: Over-production of the protein led to a sharp decline in the ability to learn and memorize information, the researchers reported in the journal NeuroMolecular Medicine.

"This study demonstrates that it is possible to manipulate various processes and neural circuits in the brain," says Dr. Barak, a finding which may aid in the development of therapeutic procedures for epilepsy and neurodegenerative diseases such as Alzheimer's. Slowing the transmission rate of information when the brain is overactive during epileptic seizures could have a beneficial effect, and readjusting the levels of tomosyn in an Alzheimer's patient may help increase cognition and combat memory loss.

A maze of memory loss

The researchers teamed up with a laboratory at the National Institutes of Health (NIH) in Baltimore to create a virus which produces the tomosyn protein. In the lab, the virus was injected into the hippocampus region in mice. Then, in order to test the consequences, they performed a series of behavioral tests designed to measure functions like memory, cognitive ability, and motor skills.

In one experiment, called the Morris Water Maze, mice had to learn to navigate to, and remember, the location of a hidden platform placed inside a pool with opaque water. During the first five days of testing, researchers found that the test group with an over-production of tomosyn had a significant problem in learning and memorizing the location of the platform, compared to a control group that received a placebo injection. And when the platform was removed from the maze, the test group spent less time swimming around the area where the platform once was, indicating that they had no memory of its existence. In comparison, the control group of mice searched for the missing platform in its previous location for two or even three days after its removal, notes Dr. Barak.

These findings were further verified by measuring electrical activity in the brains of both the test group and the control group. In the test group, researchers found decreased levels of transmissions between neurons in the hippocampus, a physiological finding that may explain the results of the behavioral tests.

Correcting neuronal processes

In the future, Dr. Barak believes that the ability to modify proteins directly in the brain will allow for more control over brain activities and the correction of neurodegenerative processes, such as providing stricter regulation in neuronal activity for epileptic patients or stimulating neurotransmitters to help with learning and memory loss in Alzheimer's patients. Indeed, a separate study conducted by the researchers demonstrates that mouse models for Alzheimer's disease do have an over-production of tomosyn in the hippocampus region, so countering the production of this protein could have a beneficial effect.

Now Dr. Barak and Prof. Ashery are working towards a method for artificially decreasing levels of the protein, which they believe will have the opposite effect on the cognitive ability of the mice. "We hypothesize that with an under-production in tomosyn, the mice will show a marked improvement in their performance in behavioral testing," he says.


Story Source:

The above story is based on materials provided by American Friends of Tel Aviv University. Note: Materials may be edited for content and length.


Journal Reference:

  1. Boaz Barak, Eitan Okun, Yoav Ben-Simon, Ayal Lavi, Ronit Shapira, Ravit Madar, Yue Wang, Eric Norman, Anton Sheinin, Mario A. Pita, Ofer Yizhar, Mohamed R. Mughal, Edward Stuenkel, Henriette Praag, Mark P. Mattson, Uri Ashery. Neuron-Specific Expression of Tomosyn1 in the Mouse Hippocampal Dentate Gyrus Impairs Spatial Learning and Memory. NeuroMolecular Medicine, 2013; 15 (2): 351 DOI: 10.1007/s12017-013-8223-4

Cite This Page:

American Friends of Tel Aviv University. "Manipulating memory in the hippocampus." ScienceDaily. ScienceDaily, 3 June 2013. <www.sciencedaily.com/releases/2013/06/130603142309.htm>.
American Friends of Tel Aviv University. (2013, June 3). Manipulating memory in the hippocampus. ScienceDaily. Retrieved July 24, 2014 from www.sciencedaily.com/releases/2013/06/130603142309.htm
American Friends of Tel Aviv University. "Manipulating memory in the hippocampus." ScienceDaily. www.sciencedaily.com/releases/2013/06/130603142309.htm (accessed July 24, 2014).

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