One of the brain's most celebrated qualities is its adaptability. Changes to neural circuits, whose connections are continually adjusted as we experience and interact with the world, are key to how we learn. But to keep knowledge and memories intact, some parts of the circuitry must be resistant to this constant change.
"Brains have figured out how to navigate this landscape of balancing between stability and flexibility, so that you can have new learning and you can have lifelong memory," says neuroscientist Mark Harnett, an investigator at MIT's McGovern Institute for Brain Research. In research published in Cell Reports , Harnett and his team show how individual neurons can contribute to both parts of this vital duality. By studying the synapses through which pyramidal neurons in the brain's sensory cortex communicate, they have learned how the cells preserve their understanding of some of the world's most fundamental features, while also maintaining the flexibility they need to adapt to a changing world.
Visual connections Pyramidal neurons receive input from other neurons via thousands of connection points. Early in life, these synapses are extremely malleable; their strength can shift as a young animal takes in visual information and learns to interpret it. Most remain adaptable into adulthood, but Harnett's team discovered that some of the cells' synapses lose their flexibility when the animals are less than a month old.
Having both stable and flexible synapses means t.