Abstract
SummaryThe change in irradiance at dawn and dusk provides the primary cue for the entrainment of the mammalian circadian pacemaker. Irradiance detection has been ascribed largely to melanopsin-based phototransduction [1–5]. Here we examine the role of ultraviolet-sensitive (UVS) cones in the modulation of circadian behavior, sleep, and suprachiasmatic nucleus (SCN) electrical activity. UV light exposure leads to phase-shifting responses comparable to those of white light. Moreover, UV light exposure induces sleep in wild-type and melanopsin-deficient (Opn4−/−) mice with equal efficacy. Electrical recordings from the SCN of wild-type mice show that UV light elicits irradiance-dependent sustained responses that are similar to those induced by white light, with characteristic fast transient components occurring at the light transitions. These responses are retained in Opn4−/− mice and preserved under saturating photopic conditions. The sensitivity of phase-shifting responses to UV light is unaffected by the loss of rods but is severely attenuated by the additional loss of cones. Our data show that UVS cones play an important role in circadian and sleep regulation in mice.
Highlights
The results show that UV is as effective as white light at inducing sleep [19] and that this response is independent of melanopsin
At lights-off, a fast transient drop (‘‘off-inhibition’’) in suprachiasmatic nucleus (SCN) activity was observed, which gradually returned to baseline
UV Light Responses in Opn42/2 Mice We investigated whether the sustained UV light induced firing of SCN neurons is retained in melanopsin-deficient mice (Opn42/2)
Summary
The results show that UV is as effective as white light at inducing sleep [19] and that this response is independent of melanopsin. Behavioral Responses to UV Light We assessed the phase-shifting effects of UV light on circadian wheel running activity (Figures 1A–1C).
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