How astrocytes help us learn
News Jun 24, 2016
A molecule that enables strong communication between our brain and muscles appears to also aid essential communication between our neurons, scientists report.
On the surface of our numerous astrocytes (our star-shaped brain cells), they have found the molecule LRP4 is important in ensuring healthy levels of a neurotransmitter that enables learning and memory, said Dr. Lin Mei, chairman of the Department of Neuroscience and Regenerative Medicine at the Medical College of Georgia (MCG) at Augusta University and Georgia Research Alliance Eminent Scholar in Neuroscience.
See Also: Neurotransmitter GABA predicts learning
This neurotransmitter is glutamate, the most important excitatory neurotransmitter in the brain. It was known that astrocytes could regulate or modulate brain cell communication by adjusting levels of glutamate. But now, the MCG scientists have shown that LRP4 is in those astrocytes, and that without it, glutamate release is dramatically reduced. Mice are intellectually impaired and have difficulty with movement, Mei said of the findings he characterizes as "unexpected." One benefit was protection from seizures because of the reduced excitability of neurons. Removing LRP4 from nearby neurons did not yield the same negative effects.
While much work remains, Mei and his colleagues believe the work published in Nature Neuroscience provides new insight into the critical regulation of neurotransmitters that enable neurons to take action as well as potential therapeutic targets for one day helping individuals with intellectual disabilities.
Once made, glutamate gets passed from one neuron to the next via synapses and dysfunction of synapses is associated with a host of neuropsychiatric disorders such as epilepsy, addiction, schizophrenia and autism.
Taking LRP4 out of the equation messes up the delicate balance, the scientists have found. Without it, levels of ATP, a natural energy source for cells that also inhibits glutamate release, also dramatically increase. In fact, regulating ATP levels is one way astrocytes help regulate the level of neurotransmitters, Mei said. But in this scenario, too much ATP translates to too little glutamate. Blocking the receptor ATP eventually activates ameliorates the negative impact that high levels had on the mice.
"When you take LRP4 out of astrocytes, ATP levels released by those astrocytes go super high, which suppresses glutamate transmission," Mei said.
Astrocytes, the most common type of glial cell in our brains, account for about half of all the cells in the brain. While the brain actually has more glial cells than neurons, glial cells were long thought to provide only structural support to the neurons, much like cement supports a house. "That view has been changed and is changing," said Mei. Now it's clear that glial cells, like astrocytes, have a role in neurodevelopment and longer-term in regulating communication between two neurons.
In the neuromuscular juncture, Mei's lab found several years back that LRP4 on the muscle cell surface is a receptor for agrin, a protein that motor neurons release to direct construction of the nerve-muscle juncture. His lab later identified antibodies to LRP4 and agrin as new causes of myasthenia gravis. The new research indicates that release of ATP by astrocytes is also regulated by agrin signaling.
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Sun X-D et al. Lrp4 in astrocytes modulates glutamatergic transmission. Nature Neuroscience, Published Online June 13 2016. doi: 10.1038/nn.4326
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