Video Shows The Traffic Inside a Brain Cell

Photo: Screenshot of the video

Video depicting the flow of
transport vesicles containing
NgCAM, an axonal protein;
© USC Don Arnold

The video offers a rare peek at how proteins, the brain's building blocks, are directed through neurons to renew its structure. "Your brain is being disassembled and reassembled every day," said Doctor Don Arnold of the University of Southern California.

"One week from today, your brain will be made up of completely different proteins than it is today," Arnold said. "This video shows the process. We have known that it was happening, but now we can watch it happen."

The new imaging technique was used to cast new light on how proteins are directed to one of the two types of compartments inside the neuron: the axon or the dendrites. The axon is the region of the cell responsible for transmitting electrical signals to other cells, while the dendrites receive signals from other cells.

"It is been known for many decades that proteins are specifically targeted to one compartment or the other. However, we couldn't understand how the targeting occurs until we could actually watch the proteins traveling to one compartment or to the other," said Sarmad Al-Bassam.

Since the mid-1990s, scientists have been able to illuminate the proteins inside of cells, including neurons, by attaching a protein isolated from jellyfish — known as GFP (green fluorescent protein) — that fluoresces bright green when exposed to blue light.

The problem with studying the flow of illuminated proteins inside of neurons is that there are several different overlapping pathways within the cell, making it difficult to study the traffic through just one. Al-Bassam and his colleagues solved this issue by developing a new technique that involves damming up a single pathway, which creates a backlog of transport vesicles (little bubbles that travel up and down neurons carrying membrane protein cargo) impregnated with the illuminated proteins. They then use a small-molecule drug to release the backlog all at once in a bright pulse.

"Our result was very surprising," said Arnold. "We found that rather than being targeted specifically to the dendrites, vesicles carrying proteins initially enter both compartments, but then are stopped and prevented from moving beyond the initial segment of the axon."

MEDICA.de; Source: University of Southern California - Click here for the video: "NgCAM processed+raw compressed"