Abstract
Microglia are subject to change in tandem with the endogenously generated biological oscillations known as our circadian rhythm. Studies have shown microglia harbor an intrinsic molecular clock which regulates diurnal changes in morphology and influences inflammatory responses. In the adult brain, microglia play an important role in the regulation of condensed extracellular matrix structures called perineuronal nets (PNNs), and it has been suggested that PNNs are also regulated in a circadian and diurnal manner. We sought to determine whether microglia mediate the diurnal regulation of PNNs via CSF1R inhibitor dependent microglial depletion in C57BL/6J mice, and how the absence of microglia might affect cortical diurnal gene expression rhythms. While we observe diurnal differences in microglial morphology, where microglia are most ramified at the onset of the dark phase, we do not find diurnal differences in PNN intensity. However, PNN intensity increases across many brain regions in the absence of microglia, supporting a role for microglia in the regulation of PNNs. Here, we also show that cortical diurnal gene expression rhythms are intact, with no cycling gene changes without microglia. These findings demonstrate a role for microglia in the maintenance of PNNs, but not in the maintenance of diurnal rhythms.
Highlights
Microglia are subject to change in tandem with the endogenously generated biological oscillations known as our circadian rhythm
Microglia are dependent on signaling through the colony stimulation factor 1 receptor (CSF1R) for their survival and we previously identified and optimized the specific CSF1R inhibitor PLX5622 in chow to produce rapid and sustained microglial depletion[34]
Brains and peripheral tissue were harvested at Zeitgeber times (ZT): ZT2, ZT6, ZT10, ZT14, ZT18, and ZT22 where ZT0 denotes the onset of the light-phase and ZT12 the onset of the dark-phase
Summary
Microglia are subject to change in tandem with the endogenously generated biological oscillations known as our circadian rhythm. Microglia play an important role in the regulation of condensed extracellular matrix structures called perineuronal nets (PNNs), and it has been suggested that PNNs are regulated in a circadian and diurnal manner. PNN intensity increases across many brain regions in the absence of microglia, supporting a role for microglia in the regulation of PNNs. Here, we show that cortical diurnal gene expression rhythms are intact, with no cycling gene changes without microglia. Microglia actively maintain tissue homeostasis throughout adulthood by clearing cellular debris via phagocytosis as well as remodeling synapses[1,2] Yet another homeostatic function of microglia has been identified: the regulation of perineuronal nets (PNNs). A daytime decrease in PNN intensity followed by a nighttime increase was shown in regions associated with decision making, learning, memory processing, and sleep (prelimbic area (PLA) and infralimbic area (ILA) of prefrontal cortex (PFC), hippocampus, amygdala, thalamic reticular nucleus), in adult C57BL/6J mice
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