Neuroscientists draw up a ‘parts list’ covering 133 different types of brain cells


Neuroscientists used a new, gene-based classification of mouse brain cell types and additional information about neuron shape to uncover two new types of neurons involved in movement. (Credit: Michael Economo, Janelia Research Campus / Lucas Graybuck, Allen Institute)

How many different kinds of cells are there in the brain? At least 133 kinds, including two types of neurons not recognized before, according to a pair of studies featured on the cover of this week’s issue of the journal Nature.

The “parts list” builds on 15 years of work at Seattle’s Allen Institute, focused on analyzing genetic activity in nearly 24,000 of the 100 million brain cells in the mouse cortex. Each cell type exhibited a different combination of genes that were turned on or off.

“This is by far the most comprehensive, most in-depth analysis of any regions of the cortex in any species,” senior study author Hongkui Zeng, executive director of structured science at the Allen Institute for Brain Science, said in a news release. “We can now say that we understand the distribution rules for its parts list.”

The cover of this week’s issue of the journal Nature features brain cells. (Michael Economo / Jayaram Chandrashekar via Nature)

The region of the cortex that Zeng and her colleagues studied is responsible for processing visual and motor function. Other regions should follow similar rules of organization, the researchers said.

“With all these data in hand, we can start to learn new principles of how the brain is organized — and ultimately, how it works,” Zeng said.

Researchers at the Howard Hughes Medical Institute’s Janelia Research Campus in Virginia used the Allen Institute’s gene expression data as well as the physical shapes of brain cells to identify two new types of pyramidal tract neurons involved in movement. Then they monitored the cells’ activity in live mice to figure out their function.

One of the neuron types plays a role in preparing for a movement — for example, the lick of a tongue. The other type works to trigger the movement itself.

Janelia’s Karel Svoboda, senior author of the motor neuron study, said that tracking gene expression is “a very efficient way of getting at cell types.”

“That’s really what the Allen Institute is at the core,” Svoboda said. “The motor cortex study is the first salvo in a different type of cell type classification, where gene expression information, structural information and measurements of neural activity are brought …read more

Source:: GeekWire

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