Imaging microglia surveillance during sleep-wake cycles in freely behaving mice.
Xiaochun GuZhong ZhaoXueli ChenLifeng ZhangHuaqiang FangTing ZhaoShenghong JuWeizheng GaoXiaoyu QianXianhua WangJue ZhangHeping Peace ChengPublished in: eLife (2023)
Microglia surveillance manifests itself as dynamic changes in cell morphology and functional remodeling. Whether and how microglia surveillance is coupled to brain state switches during natural sleep-wake cycles remains unclear. To address this question, we used miniature two-photon microscopy (mTPM) to acquire time-lapse high-resolution microglia images of the somatosensory cortex, along with EEG/EMG recordings and behavioral video, in freely-behaving mice. We uncovered fast and robust brain state-dependent changes in microglia surveillance, occurring in parallel with sleep dynamics and early-onset phagocytic microglial contraction during sleep deprivation stress. We also detected local norepinephrine fluctuation occurring in a sleep state-dependent manner. We showed that the locus coeruleus-norepinephrine system, which is crucial to sleep homeostasis, is required for both sleep state-dependent and stress-induced microglial responses and β 2 -adrenergic receptor signaling plays a significant role in this process. These results provide direct evidence that microglial surveillance is exquisitely tuned to signals and stressors that regulate sleep dynamics and homeostasis so as to adjust its varied roles to complement those of neurons in the brain. In vivo imaging with mTPM in freely behaving animals, as demonstrated here, opens a new avenue for future investigation of microglia dynamics and sleep biology in freely behaving animals.
Keyphrases
- inflammatory response
- sleep quality
- high resolution
- neuropathic pain
- physical activity
- early onset
- public health
- stress induced
- spinal cord
- resting state
- lipopolysaccharide induced
- type diabetes
- white matter
- spinal cord injury
- lps induced
- high throughput
- multiple sclerosis
- machine learning
- mass spectrometry
- bone marrow
- transcranial direct current stimulation
- cell therapy
- blood brain barrier
- single cell
- high speed
- high density
- upper limb
- current status