Brains Connective Cells Are Much More Than Glue

Glia cells also regulate learning and memory, new Tel Aviv University (TAU) research finds. 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.
 

According to Ph.D. student Maurizio De Pittà of TAU’s Schools of Physics and Astronomy andElectrical Engineering, glia cells do much more than hold the brain together. A mechanism within the glia cells also sorts information for learning purposes, De Pittà says. "Glia cells are like the brain’s supervisors. By regulating the synapses, they control the transfer of information between neurons, affecting how the brain processes information and learns."
 
Researcers has developed the first computer model that incorporates the influence of glia cells on synaptic information transfer. Detailed in the journal PLoS Computational Biology, the model can also be implemented in technologies based on brain networks such as microchips and computer software, Prof. Ben-Jacob says, and aid in research on brain disorders such as Alzheimer’s disease and epilepsy.