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Histamine Phase Shifts the Hamster Circadian Pacemaker via an NMDA Dependent Mechanism

Department of Biological Sciences, Smith College, Northampton, MA 01063, USA

Adam C. Hall

Department of Psychology, Smith College, Northampton, MA 01063, USA

Mary E. Harrington

Departments of Psychology and Biological Sciences, Smith College, Northampton, MA 01063, USA

The SCN acts as the central pacemaker for circadian rhythms in mammals. Histamine has been shown to affect circadian rhythms both in vivo and in vitro. We investigated the mechanism by which histamine phase shifts circadian rhythms in vitro. Hypothalamic slices containing the SCN were prepared from golden hamsters, and spontaneous firing rates of individual cells were recorded on the second day in vitro. Application of histamine (1 µM – 10 mM) at the extrapolated time of 2 h after lights off (ZT 14) on day 1 in vitro delayed the time of peak firing in a dose-dependent manner. Pre-exposure to the N-methyl-D-aspartate (NMDA) receptor antagonist (±)-2-amino-5-phosphonopentanoic acid (AP-5; 100 µM – 1mM) 5 min before histamine (1 µM) was applied to the slice blocked the phase-delaying effects of histamine. Application of the H1 blocker mepryamine (100 nM) or the H2 blocker cimetidine (10 µM) followed by histamine had no effect on the phase delay induced by histamine. In whole cell recordings from acutely dissociated neurons of hamster SCN, histamine (50 [.mu]M) was shown to potentiate NMDA-evoked currents by 52 ± 12%. These experiments demonstrate that histamine phase shifts of the circadian clock are dependent on NMDA receptor activation and that histamine can directly potentiate NMDA currents in SCN neurons. Histamine may alter circadian clock function by acting directly on NMDA receptors, possibly via binding to the polyamine site.

Key Words: AP-5 • mepyramine • patch clamp • polyamine • suprachiasmatic

Journal of Biological Rhythms, Vol. 13, No. 4, 288-295 (1998)
DOI: 10.1177/074873098129000129


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