Astrocyte and neuron cooperation in long-term depression
Trends in neurosciences, 2021•cell.com
Activity-dependent long-term changes in synaptic transmission known as synaptic plasticity
are fundamental processes in brain function and are recognized as the cellular basis of
learning and memory. While the neuronal mechanisms underlying synaptic plasticity have
been largely identified, the involvement of astrocytes in these processes has been less
recognized. However, astrocytes are emerging as important cells that regulate synaptic
function by interacting with neurons at tripartite synapses. In this review, we discuss recent …
are fundamental processes in brain function and are recognized as the cellular basis of
learning and memory. While the neuronal mechanisms underlying synaptic plasticity have
been largely identified, the involvement of astrocytes in these processes has been less
recognized. However, astrocytes are emerging as important cells that regulate synaptic
function by interacting with neurons at tripartite synapses. In this review, we discuss recent …
Activity-dependent long-term changes in synaptic transmission known as synaptic plasticity are fundamental processes in brain function and are recognized as the cellular basis of learning and memory. While the neuronal mechanisms underlying synaptic plasticity have been largely identified, the involvement of astrocytes in these processes has been less recognized. However, astrocytes are emerging as important cells that regulate synaptic function by interacting with neurons at tripartite synapses. In this review, we discuss recent evidence suggesting that astrocytes are necessary elements in long-term synaptic depression (LTD). We highlight the mechanistic heterogeneity of astrocyte contribution to this form of synaptic plasticity and propose that astrocytes are integral participants in LTD.
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