FcγR- and CD9-dependent synapse engulfing microglia in the thalamus drives cognitive impairment following cortical brain injury

Various states of microglia appear in neuroinflammation, but their impact on brain function and behavior is not fully understood. Here we report that synapse engulfing microglia in the thalamus are crucial for cognitive impairment after cortical brain injury. Region-specific manipulations of reactive microglia in the chronic phase of injuries showed that microglial changes in the thalamus, but not in the hippocampus, impaired recognition memory. Single-cell RNA-sequencing analysis revealed the enrichment of synapse engulfing microglia in the thalamus, which developed in a CD9-dependent manner and caused synaptic loss and recognition memory deficits. In the thalamus, the blood-brain barrier was disrupted, and extravasated γ-immunoglobulins (IgG) co-localized with synapse engulfing microglia. Fcγ receptor III blockade in the thalamus reduced synapse engulfing microglia, synapse loss, and recognition memory deficits. These findings demonstrate that the induction of synapse engulfing microglia in the thalamus by extravasated IgG/FcγRIII and CD9 signals causes recognition memory deficits after cortical brain injury.