People spend about a third of their lives asleep. When we get too little shut-eye, it takes a toll on attention, learning and memory, not to mention our physical health. Virtually all animals with complex brains seem to have this same need for sleep. But exactly what is it about sleep that’s so essential?
Two NIH-funded studies in mice now offer a possible answer. The two research teams used entirely different approaches to reach the same conclusion: the brain’s neural connections grow stronger during waking hours, but scale back during snooze time. This sleep-related phenomenon apparently keeps neural circuits from overloading, ensuring that mice (and, quite likely humans) awaken with brains that are refreshed and ready to tackle new challenges.
Tags: brain, brain imaging, cerebral cortex, Homer1a, learning, memory, neural circuits, neurology, neurons, resetting brain, serial scanning 3D electron microscopy, SHY hypothesis, sleep, sleep disorders, spines, synapse, synaptic homeostasis hypothesis, synaptic scaling, wakefulness