STUDY OBJECTIVES: Sleep and wake are opposing behavioral states controlled by the activity of specific neurons that need to be located and mapped. To better understand how a waking brain falls asleep it is necessary to identify activity of individual phenotype-specific neurons, especially neurons that anticipate sleep onset. In freely behaving mice, we used microendoscopy to monitor calcium (Ca2+) fluorescence in individual hypothalamic neurons expressing the vesicular GABA transporter (vGAT), a validated marker of GABA neurons. METHODS: vGAT-Cre mice (male = 3; female = 2) transfected with rAAV-FLEX-GCaMP6M in the lateral hypothalamus were imaged 30 days later during multiple episodes of waking (W), non-rapid-eye movement sleep (NREMS) or REMS (REMS). RESULTS: 372 vGAT neurons were recorded in the zona incerta. 23.9% of the vGAT neurons showed maximal fluorescence during wake (classified as wake-max), 4% were NREM-max, 56.2% REM-max, 5.9% wake/REM max, while 9.9% were state-indifferent. In the NREM-max group, Ca2+ fluorescence began to increase before onset of NREM sleep, remained high throughout NREM sleep, and declined in REM sleep. CONCLUSIONS: We found that 60.2% of the vGAT GABA neurons in the zona incerta had activity that was biased towards sleep (NREM and REMS). A subset of vGAT neurons (NREM-max) became active in advance of sleep onset and may induce sleep by inhibiting the activity of the arousal neurons. Abnormal activation of the NREM-max neurons may drive sleep attacks and hypersomnia. Published by Oxford University Press on behalf of Sleep Research Society (SRS) 2020.
STUDY OBJECTIVES: Sleep and wake are opposing behavioral states controlled by the activity of specific neurons that need to be located and mapped. To better understand how a waking brain falls asleep it is necessary to identify activity of individual phenotype-specific neurons, especially neurons that anticipate sleep onset. In freely behaving mice, we used microendoscopy to monitor calcium (Ca2+) fluorescence in individual hypothalamic neurons expressing the vesicular GABA transporter (vGAT), a validated marker of GABA neurons. METHODS:vGAT-Cre mice (male = 3; female = 2) transfected with rAAV-FLEX-GCaMP6M in the lateral hypothalamus were imaged 30 days later during multiple episodes of waking (W), non-rapid-eye movement sleep (NREMS) or REMS (REMS). RESULTS: 372 vGAT neurons were recorded in the zona incerta. 23.9% of the vGAT neurons showed maximal fluorescence during wake (classified as wake-max), 4% were NREM-max, 56.2% REM-max, 5.9% wake/REM max, while 9.9% were state-indifferent. In the NREM-max group, Ca2+ fluorescence began to increase before onset of NREM sleep, remained high throughout NREM sleep, and declined in REM sleep. CONCLUSIONS: We found that 60.2% of the vGATGABA neurons in the zona incerta had activity that was biased towards sleep (NREM and REMS). A subset of vGAT neurons (NREM-max) became active in advance of sleep onset and may induce sleep by inhibiting the activity of the arousal neurons. Abnormal activation of the NREM-max neurons may drive sleep attacks and hypersomnia. Published by Oxford University Press on behalf of Sleep Research Society (SRS) 2020.
Authors: Emily Qualls-Creekmore; Sangho Yu; Marie Francois; John Hoang; Clara Huesing; Annadora Bruce-Keller; David Burk; Hans-Rudolf Berthoud; Christopher D Morrison; Heike Münzberg Journal: J Neurosci Date: 2017-05-24 Impact factor: 6.167
Authors: Franz Weber; Johnny Phong Hoang Do; Shinjae Chung; Kevin T Beier; Mike Bikov; Mohammad Saffari Doost; Yang Dan Journal: Nat Commun Date: 2018-01-24 Impact factor: 14.919
Authors: Shinjae Chung; Franz Weber; Peng Zhong; Chan Lek Tan; Thuc Nghi Nguyen; Kevin T Beier; Nikolai Hörmann; Wei-Cheng Chang; Zhe Zhang; Johnny Phong Do; Shenqin Yao; Michael J Krashes; Bosiljka Tasic; Ali Cetin; Hongkui Zeng; Zachary A Knight; Liqun Luo; Yang Dan Journal: Nature Date: 2017-05-17 Impact factor: 49.962