Multi‐Omic Analysis Reveals Astrocytic Annexin‐ A2 as Critical for Network‐Level Circadian Timekeeping in the Suprachiasmatic Nucleus

ABSTRACT The mammalian suprachiasmatic nucleus (SCN) orchestrates daily (circadian) rhythms of physiology and behavior by broadcasting timing cues generated autonomously by its mutually reinforcing network of ~10,000 neurons and ~3000 astrocytes. Although astrocytic control of extracellular glutamate and GABA has been implicated in driving circadian oscillations in SCN gene expression and neuronal activity, the full scale of the network‐level signaling mechanisms is unknown. To understand better how this astrocyte‐neuron network operates, we adopted a multi‐omics approach, first using SILAC‐based mass spectrometry to generate an SCN proteome where ~7% of identified proteins were circadian. This circadian proteome was analyzed bioinformatically alongside existing single‐cell RNAseq transcriptomic data to identify the cell‐types and processes to which they contribute. This highlighted “S100 protein binding,” tracked to astrocytes, and revealed annexin‐A2 (Anxa2) as an astrocyte‐enriched circadian protein for further investigation. We show that Anxa2 and its partner S100a10 are co‐expressed and enriched in SCN astrocytes. We also show that pharmacological disruption of their association acutely and reversibly dysregulated the circadian cycle of astrocytic calcium levels and progressively compromised SCN neuronal oscillations. Anxa2 and S100a10 interaction therefore constitutes an astrocytic cellular signaling axis that regulates circadian neuronal excitability and ultimately SCN network coherence necessary for circadian timekeeping.