JIJITANG2014-07-16 11:27 AM

These neurons order stem cells to crank out new neurons

 Is it possible that your brain can repair itself from within? The discovery of a new type of neuron that tells stem cells to make new neurons opens that tantalizing possibility.

Neuroscientists have suspected for some time that the brain has some capacity to direct the manufacturing of new neurons, but it was difficult to determine where these instructions are coming from, explains Chay Kuo, an assistant professor of cell biology, neurobiology and pediatrics at Duke University.

In a study with mice, his team found a previously unknown population of neurons within the subventricular zone (SVZ) neurogenic niche of the adult brain, adjacent to the striatum. These neurons expressed the choline acetyltransferase (ChAT) enzyme, which is required to make the neurotransmitter acetylcholine.

With optogenetic tools that allowed the team to tune the firing frequency of these ChAT+ neurons up and down with laser light, they were able to see clear changes in neural stem cell proliferation in the brain.

The findings are detailed in an article published in the journal Nature Neuroscience.

Regions of the human brain
The mature ChAT+ neuron population is just one part of an undescribed neural circuit that apparently talks to stem cells and tells them to increase new neuron production, Kuo says. Researchers don’t know all the parts of the circuit yet, nor the code it’s using, but by controlling ChAT+ neurons’ signals Kuo and his colleagues have established that these neurons are necessary and sufficient to control the production of new neurons from the SVZ niche.

“We have been working to determine how neurogenesis is sustained in the adult brain. It is very unexpected and exciting to uncover this hidden gateway, a neural circuit that can directly instruct the stem cells to make more immature neurons,” says Kuo. “It has been this fascinating treasure hunt that appeared to dead-end on multiple occasions!”

Kuo says this project was initiated more than five years ago when lead author Patricia Paez-Gonzalez, a postdoctoral fellow, came across neuronal processes contacting neural stem cells while studying how the SVZ niche was assembled.

The young neurons produced by these signals were destined for the olfactory bulb in rodents, as the mouse has a large amount of its brain devoted to process the sense of smell and needs these new neurons to support learning. But in humans, with a much less impressive olfactory bulb, Kuo says it’s possible new neurons are produced for other brain regions. One such region may be the striatum, which mediates motor and cognitive controls between the cortex and the complex basal ganglia.

“The brain gives up prime real estate around the lateral ventricles for the SVZ niche housing these stem cells,” Kuo says. “Is it some kind of factory taking orders?”

Postdoctoral fellow Brent Asrican made a key observation that orders from the novel ChAT+ neurons were heard clearly by SVZ stem cells.

Studies of stroke injury in rodents have noted SVZ cells apparently migrating into the neighboring striatum. And just last month in the journal Cell, a Swedish team observed newly made control neurons called interneurons in the human striatum for the first time. They reported that interestingly in Huntington’s disease patients, this area seems to lack the newborn interneurons.

“This is a very important and relevant cell population that is controlling those stem cells,” says Sally Temple, director of the Neural Stem Cell Institute of Rensselaer, New York, who was not involved in this research. “It’s really interesting to see how innervations are coming into play now in the subventricular zone.”

‘Gorgeous niche’
Kuo’s team found this system by following cholinergic signaling, but other groups are arriving in the same niche by following dopaminergic and serotonergic signals, Temple explains.

“It’s a really hot area because it’s a beautiful stem cell niche to study. It’s this gorgeous niche where you can observe cell-to-cell interactions.”

These emerging threads have Kuo hopeful researchers will eventually be able to find the way to “engage certain circuits of the brain to lead to a hardware upgrade. Wouldn’t it be nice if you could upgrade the brain hardware to keep up with the new software?”

He says perhaps there will be a way to combine behavioral therapy and stem cell treatments after a brain injury to rebuild some of the damage.

The questions ahead are both upstream from the new ChAT+ neurons and downstream, Kuo says. Upstream, what brain signals tell ChAT+ neurons to start asking the stem cells for more young neurons? Downstream, what’s the logic governing the response of the stem cells to different frequencies of ChAT+ electrical activity?

There’s also the big issue of somehow being able to introduce new components into an existing neuronal circuit, a practice that parts of the brain might normally resist. “I think that some neural circuits welcome new members, and some don’t,” Kuo says.

The National Institutes of Health, David & Lucile Packard Foundation, and George Brumley Jr. Endowment supported the research.


Original Article:
Identification of distinct ChAT+ neurons and activity-dependent control of postnatal SVZ neurogenesis 
http://www.jijitang.com/note/5263

KEYWORDS

SHARE & LIKE

COMMENTS

ABOUT THE AUTHOR

JIJITANG

0 Following 3 Fans 0 Projects 310 Articles

SIMILAR ARTICLES

Changes to the Special Supplemental Nutrition Program for Women, Infants, and Children (WIC) have resulted in families eating more fruits and vegetable

Read More

In contests drawn from game theory, chimpanzee pairs consistently outperform humans in games that test memory and strategic thinking.A new study, condu

Read More

Publishing is one of the most ballyhooed metrics of scientific careers, and every researcher hates to have a gap in that part of his or her CV. Here’s

Read More

Pornography triggers brain activity in people with compulsive sexual behaviour -- known commonly as sex addiction -- similar to that triggered by drugs

Read More

In a recent survey, academic staff at the University identified the interrelated skills of writing and reasoning as the two most important skills for s

Read More

In a recent survey, academic staff at the University identified the interrelated skills of writing and reasoning as the two most important skills for s

Read More

Reading cautionary tales like The Boy Who Cried Wolf and Pinocchio to little kids might not be the best way to teach them to tell the truth.New researc

Read More

Those flat, glassy solar panels on your neighbor’s roof may be getting a more efficient makeover, thanks to a new class of solar-sensitive nanoparticle

Read More

Physicists have overcome a major challenge in the science of measurement using quantum mechanics. They’ve used multiple detectors to measure photons in

Read More

If you want to slow down long enough to smell the proverbial roses, you might want to move to a neighborhood with fewer drive-thru restaurants, researc

Read More