029 Median preoptic dual control over sleep regulation

Abstract

Abstract Introduction Previous studies suggest that the median preoptic nucleus (MnPO) plays an important role in regulating the wake-sleep cycle and in particular homeostatic sleep drive. However, the precise cellular phenotypes, targets and central mechanisms by which the MnPO neurons regulate the wake-sleep cycle remain unknown. Both glutamatergic (Vglut2+) and GABAergic (Vgat+) MnPO neurons innervate brain regions implicated in sleep promotion and maintenance, suggesting that both cell types may participate on sleep control. Methods In this study, we used two genetically-targeted approaches associated with electroencephalographic (EEG) and electromyographic (EMG) recordings in Vgat-IRES-cre and Vglut2-IRES-cre mice to investigate the role of the MnPOVgat and MnPOVglut2 neurons in modulating wake-sleep behavior. Results First, using a chemogenetic approach, we found that activation of MnPOVgat neurons reduced the latency for the first NREM sleep episode, produced an increase in NREM sleep and reduced wakefulness. Then, to test the role of MnPOVgat and MnPOVglut2 neurons in regulating sleep homeostasis, we recorded EEG and EMG responses in mice that had the Vgat+ or Vglut2+ neurons deleted from the MnPO. After deletion of MnPOVgat neurons, mice showed a reduction of NREM sleep and an increase in wakefulness during the light phase. Deletion of MnPOVgat neurons also reduced sleep recovery after 4 hours of sleep deprivation (SD). On the other hand, deletion of the MnPOVglut2 neurons did not change the wake-sleep cycle during the 24h baseline condition, but prevented the sleep recovery immediately after SD. To understand the underlying mechanism in preventing sleep recovery in both MnPOVglut2- and MnPOVgat-deleted mice groups, we exposed these animals to a psychological stress protocol. In response to a psychological stressor, mice with deletion of glutamatergic, but not GABAergic MnPO neurons, had an exacerbation of the stress-induced insomnia. Conclusion Our results suggest that both neuron populations differentially participate in wake-sleep control, with MnPOVgat neurons being critically involved in sleep homeostasis, and MnPOVglut2 neurons promoting sleep during allostatic (stressful) challenges. Support (if any) NIH Grants NS085477, NS072337, HL095491 and Sleep Research Society Foundation (Award 026-JP-20).