The rapid elimination of dying neurons and nonfunctional synapses in the brain is carried out by microglia, the resident myeloid cells of the brain. Here we show that microglia clearance activity in the adult brain is regionally regulated and depends on the rate of neuronal attrition. Cerebellar, but not striatal or cortical, microglia exhibited high levels of basal clearance activity, which correlated with an elevated degree of cerebellar neuronal attrition. Exposing forebrain microglia to apoptotic cells activated gene-expression programs supporting clearance activity. We provide evidence that the polycomb repressive complex 2 (PRC2) epigenetically restricts the expression of genes that support clearance activity in striatal and cortical microglia. Loss of PRC2 leads to aberrant activation of a microglia clearance phenotype, which triggers changes in neuronal morphology and behavior. Our data highlight a key role of epigenetic mechanisms in preventing microglia-induced neuronal alterations that are frequently associated with neurodegenerative and psychiatric diseases.
Understanding transcriptional changes engaged in stress resilience may reveal novel antidepressant targets. Here, we use gene co-expression analysis of RNA-sequencing data from brains of resilient mice to identify a gene network that is unique to resilience.
Zfp189,
which encodes a previously unstudied zinc finger protein, is the highest-ranked key driver gene in the network, and overexpression of
Zfp189
in prefrontal cortical (PFC) neurons preferentially activates this network and promotes behavioral resilience. The transcription factor CREB is a predicted upstream regulator of this network and binds to the
Zfp189
promoter. To probe CREB-
Zfp189
interactions, we employ CRISPR-mediated locus-specific transcriptional reprogramming to direct CREB or G9a (a repressive histone methyltransferase) to the
Zfp189
promoter in PFC neurons. Induction of
Zfp189
with site-specific CREB is pro-resilient, whereas suppressing
Zfp189
expression with G9a increases susceptibility. These findings reveal an essential role for
Zfp189
and CREB-
Zfp189
interactions in mediating a central transcriptional network of resilience.
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