GABA-mediated control of hypocretin- but not melanin-concentrating hormone-immunoreactive neurones during sleep in rats

doi:10.1113/jphysiol.2004.076927

GABA-mediated control of hypocretin- but not melanin-concentrating hormone-immunoreactive neurones during sleep in rats

Md. Noor Alam^1,2, Sunil Kumar^1,3,4, Tariq Bashir^1,3, Natalia Suntsova^1,2, Melvi M Methippara^1,2, Ronald Szymusiak^1,3 and Dennis McGinty^1,2

¹ Research Service (151A3), Veteran Affairs Greater Los Angeles Healthcare System, Sepulveda, CA, USA Departments of
² Psychology
³ Medicine, University of California, Los Angeles, CA, USA
⁴ Department of Zoology, Patna University, Patna, India

The perifornical-lateral hypothalamic area (PF-LHA) has beenimplicated in the regulation of behavioural arousal. The PF-LHAcontains several cell types including neurones expressing thepeptides, hypocretin (HCRT; also called orexin) and melanin-concentratinghormone (MCH). Evidence suggests that most of the PF-LHA neurones,including HCRT neurones, are active during waking and quiescentduring non-rapid eye movement (non-NREM) sleep. The PF-LHA containslocal GABAergic interneurones and also receives GABAergic inputsfrom sleep-promoting regions in the preoptic area of the hypothalamus.We hypothesized that increased GABA-mediated inhibition withinPF-LHA contributes to the suppression of neuronal activity duringnon-REM sleep. EEG and EMG activity of rats were monitored for2 h during microdialytic delivery of artificial cerebrospinalfluid (aCSF) or bicuculline, a GABA_A receptor antagonist, intothe PF-LHA in spontaneously sleeping rats during the lights-onperiod. At the end of aCSF or bicuculline perfusion, rats werekilled and c-Fos immunoreactivity (Fos-IR) in HCRT, MCH andother PF-LHA neurones was quantified. In response to bicucullineperfusion into the PF-LHA, rats exhibited a dose-dependent decreasein non-REM and REM sleep time and an increase in time awake.The number of HCRT, MCH and non-HCRT/non-MCH neurones exhibitingFos-IR adjacent to the microdialysis probe also increased dose-dependentlyin response to bicuculline. However, significantly fewer MCHneurones exhibited Fos-IR in response to bicuculline as comparedto HCRT and other PF-LHA neurones. These results support thehypothesis that PF-LHA neurones, including HCRT neurones, aresubject to increased endogenous GABAergic inhibition duringsleep. In contrast, MCH neurones appear to be subject to weakerGABAergic control during sleep.

(Received 7 October 2004; accepted after revision 17 December 2004; first published online 21 December 2004)
Corresponding author Md. N. Alam: Research Service (151A3), VAGLAHS, 16111 Plummer Street, Sepulveda, CA 91343, USA. Email: noor{at}ucla.edu

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