“Brain’s connective cells are much more than glue” Glia cells, named for the Greek word for “glue,” hold the brain’s neurons together and protect the cells that determine our thoughts and behaviors, but scientists have long puzzled over their prominence in the activities of the brain dedicated to learning and memory. Now Tel Aviv University researchers say that glia cells are central to the brain’s plasticity — how the brain adapts, learns, and stores information. We had a suspicion they were way more important than just “structural support” in our experiments with adult neurogenesis. The brain is like a social network, says Prof. Ben-Jacob. Messages may originate with the neurons, which use the synapses as their delivery system, but the glia serve as an overall moderator, regulating which messages are sent on and when. These cells can either prompt the transfer of information, or slow activity if the synapses are becoming overactive. This makes the glia cells the guardians of our learning and memory processes, he notes, orchestrating the transmission of information for optimal brain function. (via) Above: A pic of my glias, just hanging out, being awesome.

Brain’s connective cells are much more than glue

Glia cells, named for the Greek word for “glue,” hold the brain’s neurons together and protect the cells that determine our thoughts and behaviors, but scientists have long puzzled over their prominence in the activities of the brain dedicated to learning and memory. Now Tel Aviv University researchers say that glia cells are central to the brain’s plasticity — how the brain adapts, learns, and stores information.

We had a suspicion they were way more important than just “structural support” in our experiments with adult neurogenesis.

The brain is like a social network, says Prof. Ben-Jacob. Messages may originate with the neurons, which use the synapses as their delivery system, but the glia serve as an overall moderator, regulating which messages are sent on and when. These cells can either prompt the transfer of information, or slow activity if the synapses are becoming overactive. This makes the glia cells the guardians of our learning and memory processes, he notes, orchestrating the transmission of information for optimal brain function. (via)

Above: A pic of my glias, just hanging out, being awesome.

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    Look at that phospho-staining! A picture of my glia cells right now would be a square of black. I fucked up this...
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