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One form of neuron turned into another in brain

Date:
January 20, 2013
Source:
Harvard University
Summary:
A new finding by stem cell biologists turns one of the basics of neurobiology on its head -- demonstrating that it is possible to turn one type of already differentiated neuron into another within the brain.

Illustration of neural network.
Credit: nobeastsofierce / Fotolia

A new finding by Harvard stem cell biologists turns one of the basics of neurobiology on its head -- demonstrating that it is possible to turn one type of already differentiated neuron into another within the brain.

The discovery by Paola Arlotta and Caroline Rouaux "tells you that maybe the brain is not as immutable as we always thought, because at least during an early window of time one can reprogram the identity of one neuronal class into another," said Arlotta, an Associate Professor in Harvard's Department of Stem Cell and Regenerative Biology (SCRB).

The principle of direct lineage reprogramming of differentiated cells within the body was first proven by SCRB co-chair and Harvard Stem Cell Institute (HSCI) co-director Doug Melton and colleagues five years ago, when they reprogrammed exocrine pancreatic cells directly into insulin producing beta cells.

Arlotta and Rouaux now have proven that neurons too can change their mind. The work is being published on-line Jan. 20 by the journal Nature Cell Biology.

In their experiments, Arlotta targeted callosal projection neurons, which connect the two hemispheres of the brain, and turned them into neurons similar to corticospinal motor neurons, one of two populations of neurons destroyed in Amyotrophic Lateral Sclerosis (ALS), also known as Lou Gehrig's disease. To achieve such reprogramming of neuronal identity, the researchers used a transcription factor called Fezf2, which long as been known for playing a central role in the development of corticospinal neurons in the embryo.

What makes the finding even more significant is that the work was done in the brains of living mice, rather than in collections of cells in laboratory dishes. The mice were young, so researchers still do not know if neuronal reprogramming will be possible in older laboratory animals -- and humans. If it is possible, this has enormous implications for the treatment of neurodegenerative diseases.

"Neurodegenerative diseases typically effect a specific population of neurons, leaving many others untouched. For example, in ALS it is corticospinal motor neurons in the brain and motor neurons in the spinal cord, among the many neurons of the nervous system, that selectively die," Arlotta said. "What if one could take neurons that are spared in a given disease and turn them directly into the neurons that die off? In ALS, if you could generate even a small percentage of corticospinal motor neurons, it would likely be sufficient to recover basic functioning," she said.

The experiments that led to the new finding began five years ago, when "we wondered: in nature you never seen a neuron change identity; are we just not seeing it, or is this the reality? Can we take one type of neuron and turn it into another?" Arlotta and Rouaux asked themselves.

Over the course of the five years, the researchers analyzed "thousands and thousands of neurons, looking for many molecular markers as well as new connectivity that would indicate that reprogramming was occurring," Arlotta said. "We could have had this two years ago, but while this was a conceptually very simple set of experiments, it was technically difficult. The work was meant to test important dogmas on the irreversible nature of neurons in vivo. We had to prove, without a shadow of a doubt, that this was happening."

The work in Arlotta's lab is focused on the cerebral cortex, but "it opens the door to reprogramming in other areas of the central nervous system," she said.

Arlotta, an HSCI principal faculty member, is now working with colleague Takao Hensch, of Harvard's Department of Molecular and Cellular Biology, to explicate the physiology of the reprogrammed neurons, and learn how they communicate within pre-existing neuronal networks.

"My hope is that this will facilitate work in a new field of neurobiology that explores the boundaries and power of neuronal reprogramming to re-engineer circuits relevant to disease," said Paola Arlotta.


Story Source:

The above story is based on materials provided by Harvard University. Note: Materials may be edited for content and length.


Journal Reference:

  1. Caroline Rouaux, Paola Arlotta. Direct lineage reprogramming of post-mitotic callosal neurons into corticofugal neurons in vivo. Nature Cell Biology, 2013; DOI: 10.1038/ncb2660

Cite This Page:

Harvard University. "One form of neuron turned into another in brain." ScienceDaily. ScienceDaily, 20 January 2013. <www.sciencedaily.com/releases/2013/01/130120150031.htm>.
Harvard University. (2013, January 20). One form of neuron turned into another in brain. ScienceDaily. Retrieved July 31, 2014 from www.sciencedaily.com/releases/2013/01/130120150031.htm
Harvard University. "One form of neuron turned into another in brain." ScienceDaily. www.sciencedaily.com/releases/2013/01/130120150031.htm (accessed July 31, 2014).

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