Prefrontal cortex astrocytes modulate distinct neuronal populations to control anxiety-like behavior

Accumulating evidence has supported diverse regulatory functions of astrocytes in different neural circuits as well as various aspects of complex behaviors. However, little is known about how astrocytes regulate different neuronal subpopulations that are linked to specific behavioral aspects within a single brain region. Here, we show that astrocytes in the medial prefrontal cortex (mPFC) encode anxiogenic environmental cues in freely behaving mice. Silencing mPFC astrocyte Ca2+ signaling heightens anxiety-like behavior and triggers opposing functional responses in excitatory and inhibitory neurons. Moreover, neuronal subpopulations tuned to anxiety-like behavior are differentially modulated by mPFC astrocytes at single cell and network levels. Using cell type-specific proximity biotinylation approaches, we identified significant intracellular and intercellular proteomic alterations in mPFC astrocytes and at the astrocyte-neuron interface associated with anxiety. Collectively, our findings uncover mechanisms underpinning the heterogenous astrocyte-neuron interaction that is behaviorally relevant and offer critical insights into the pathophysiology of emotional disorders.