Seasonal and geographic variations in light exposure influence human mood and behavior, including alcohol consumption. Similarly, manipulation of the environmental lighting regimen modulates voluntary ethanol intake in experimental animals. Nevertheless, previous studies in rats and hamsters have been somewhat inconsistent, and little is known concerning such effects in mice. In the present study, we maintained male C57Bl/6 mice in running-wheel cages under either short- or long-photoperiod light-dark cycles (LD 6:18 vs. LD 18:6); subsequently, the same animals were maintained under short or long "skeleton photoperiods", consisting of two daily 15-min light pulses signaling dusk and dawn (SP 6:18 vs. SP 18:6). Running wheels were locked mechanically for half the animals under each photoperiod. Analysis of running wheel patterns showed that mice displayed stable circadian adaptation to both standard LD cycles and skeleton photoperiods. Mice consumed more ethanol and less water, and thus showed higher ethanol preference, under LD 6:18 and SP 6:18 relative to the corresponding long-photoperiod regimens. While running-wheel access increased water intake, ethanol intake was unaffected by this manipulation. These effects are consistent with previous studies showing that short photoperiods or constant darkness increases ethanol intake in rodents. Further, the similarity of the effects of complete and skeleton photoperiods suggests that these effects are mediated by photoperiod-induced alterations in the circadian entrainment pattern, rather than by light exposure per se.
Keywords: Circadian; Ethanol; Inbred mice; Photoperiod; Preference; Running wheel.
Copyright © 2015. Published by Elsevier Inc.