Microglia undergo rapid phenotypic transformation in acute brain slices but remain essential for neuronal synchrony

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Abstract

Acute brain slices represent a “workhorse” model for studying the central nervous system (CNS) from nanoscale events to complex circuits. While slice preparation inherently involves tissue injury, it is unclear how microglia, the main immune cells and damage sensors of the CNS shape tissue integrity ex vivo . To this end, we have studied the mechanisms of microglial phenotype changes and contribution to neuronal network organisation and functioning in acute brain slices. Using a novel ATP- reporter mouse line and microglia reporter mice, we show that acute slice preparation induces rapid, P2Y12 receptor (P2Y12R) dependent dislocation and migration of microglia, paralleled with marked morphological transformations driven by early ATP surges and subsequent ATP flashes. Gradual depolarization of microglia is associated with the downregulation of purinergic P2Y12R and time-dependent changes of microglia-neuron interactions, paralleled by altered numbers of excitatory and inhibitory synapses. Importantly, functional microglia not only modulate synapse sprouting, but the absence of microglia or microglial P2Y12R markedly diminishes the incidence, amplitude, and frequency of sharp wave-ripple activity in hippocampal slices. Collectively, our data suggest that microglia are inherent modulators of complex neuronal networks, and their specific actions are indispensable to maintain neuronal network integrity and activity ex vivo. These findings could facilitate new lines of research resulting in improved ex vivo methodologies and a better understanding of microglia-neuron interactions both in physiological and pathological conditions.

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europepmc
last seen: 2026-05-19T01:45:01.086888+00:00
unpaywall
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License: CC-BY-4.0