Astrocyte-synapse interactions during brain development

Bidirectional communication between astrocytes and neurons is essential for proper brain development. Astrocytes, a major glial cell type, are morphologically complex cells that directly interact with neuronal synapses to regulate synapse formation, maturation, and function. Astrocyte-secreted factors bind neuronal receptors to induce synaptogenesis with regional and circuit-level precision. Cell adhesion molecules mediate the direct contact between astrocytes and neurons, which is required for both synaptogenesis and astrocyte morphogenesis. Neuron-derived signals also shape astrocyte development, function, and molecular identity. This review highlights recent findings on the topic of astrocyte-synapse interactions, and discusses the importance of these interactions for synapse and astrocyte development. •Astrocyte-synapse communication is bidirectional and critical for brain function.•Astrocyte-secreted factors induce synapse formation and maturation.•Astrocytes regulate synapse formation and function through direct contact.•Neurons regulate astrocyte development through direct contact and secreted factors.