Developmental roles of astrocytes in circuit wiring.

Astrocytes, the perisynaptic glial cells of the brain, play fundamental roles in sculpting synaptic circuits and instructing their remodeling and maturation during development. Astrocytes do so through a plethora of cell adhesion and secretory signaling to neurons. This rich communication between astrocytes and neurons is critical for balancing inhibitory and excitatory synaptic connectivity. Additionally, astrocytes refine neural circuits via synaptic engulfment and elimination. Here, we will review recent findings highlighting the diversity and significance of astrocyte-to-neuron communication during developmental circuit wiring. Moreover, we will point out emerging mechanisms of how neurons instruct astrocytes' maturation and synaptic functions to spotlight the essential bidirectional communication between these two cell types in shaping synaptic circuits during neurodevelopment.

Duke Scholars

Author Cagla Eroglu Cell Biology