2009
DOI: 10.1152/ajpregu.90782.2008
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Acute ethanol impairs photic and nonphotic circadian phase resetting in the Syrian hamster

Abstract: Disrupted circadian rhythmicity is associated with ethanol (EtOH) abuse, yet little is known about how EtOH affects the mammalian circadian clock of the suprachiasmatic nucleus (SCN). Clock timing is regulated by photic and nonphotic inputs to the SCN involving glutamate release from the retinohypothalamic tract and serotonin (5-HT) from the midbrain raphe, respectively. Our recent in vitro studies in the SCN slice revealed that EtOH blocks photic phase-resetting action of glutamate and enhances the nonphotic … Show more

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Cited by 51 publications
(66 citation statements)
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“…The clock depends upon photic input for synchrony with the external environment, and this signaling pathway represents a potentially vulnerable target for the disruptive chronobiological effects of alcohol abuse. Evidence supporting this idea comes from recent studies in hamsters and mice in which acute EtOH was shown to act directly in the SCN to strongly inhibit photic phase-resetting responses (48,55). Here, we extend this work to show that chronic EtOH consumption can disrupt phaseadvance shifting in hamsters presented with photic stimuli late in the dark phase, when levels of EtOH measured in the SCN are relatively low.…”
Section: Discussionsupporting
confidence: 71%
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“…The clock depends upon photic input for synchrony with the external environment, and this signaling pathway represents a potentially vulnerable target for the disruptive chronobiological effects of alcohol abuse. Evidence supporting this idea comes from recent studies in hamsters and mice in which acute EtOH was shown to act directly in the SCN to strongly inhibit photic phase-resetting responses (48,55). Here, we extend this work to show that chronic EtOH consumption can disrupt phaseadvance shifting in hamsters presented with photic stimuli late in the dark phase, when levels of EtOH measured in the SCN are relatively low.…”
Section: Discussionsupporting
confidence: 71%
“…Glutamatergic activation of SCN N-methyl-D-aspartate (NMDA) receptors is essential for light-induced phase shifting to occur (1,10,38,39). In recent reports, we showed that acute EtOH can block such glutamate-induced phase shifts in the SCN in vitro (48) and impair photic phase shifts in vivo (55). These results are consistent with reports that EtOH decreases glutamate release (41,44) and inhibits NMDA-evoked ion currents (35).…”
supporting
confidence: 90%
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“…The circadian phase of alcohol intake could be regulated by signaling from the SCN to the VTA (37) and/or by clock gene activity within the reward areas (47,63). In view of findings that 1) the SCN clock is directly disrupted by ethanol (4,5,45,49,50) and 2) the SCN and IGL possess transmitter systems sensitive to acamprosate, including ACh, glutamate, and glycine (29,41,58), these circadian regulatory areas represent potential substrates for acamprosate's modulation of ethanol intake. Results from the present study bear out this hypothesis, as acamprosate implants targeted to the SCN and IGL inhibited ethanol intake in WT mice to a similar degree as acamprosate implants in the VTA and PPT.…”
Section: Acamprosate Action In Brain Reward Areasmentioning
confidence: 99%