Overlooked Cells Might Explain The Human Brain’s Huge Storage Capacity
Arthur T Knackerbracket has processed the following story:
The human brain contains about 86 billion neurons. These cells fire electrical signals that help the brain store memories and send information and commands throughout the brain and the nervous system.
The brain also contains billions of astrocytes - star-shaped cells with many long extensions that allow them to interact with millions of neurons. Although they have long been thought to be mainly supportive cells, recent studies have suggested that astrocytes may play a role in memory storage and other cognitive functions.
MIT researchers have now put forth a new hypothesis for how astrocytes might contribute to memory storage. The architecture suggested by their model would help to explain the brain's massive storage capacity, which is much greater than would be expected using neurons alone.
Originally, astrocytes were believed to just clean up around neurons, but there's no particular reason that evolution did not realize that, because each astrocyte can contact hundreds of thousands of synapses, they could also be used for computation," says Jean-Jacques Slotine, an MIT professor of mechanical engineering and of brain and cognitive sciences, and an author of the new study.
Dmitry Krotov, a research staff member at the MIT-IBM Watson AI Lab and IBM Research, is the senior author of the open-accesspaper, which appeared May 23 in the Proceedings of the National Academy of Sciences. Leo Kozachkov PhD '22 is the paper's lead author.
Astrocytes have a variety of support functions in the brain: They clean up debris, provide nutrients to neurons, and help to ensure an adequate blood supply.
Astrocytes also send out many thin tentacles, known as processes, which can each wrap around a single synapse - the junctions where two neurons interact with each other - to create a tripartite (three-part) synapse.
Within the past couple of years, neuroscientists have shown that if the connections between astrocytes and neurons in the hippocampus are disrupted, memory storage and retrieval are impaired.
Read more of this story at SoylentNews.