Estradiol Regulates Circadian Responses to Acute and Constant Light Exposure in Female Mice.

Sex hormones are well known to modulate circadian timekeeping as well as the behavioral and physiological responses to circadian disruption. Gonadectomy, reducing the amount of circulating gonadal hormones, in males and females produces alterations to the free-running rhythm and the responses to light exposure by the central oscillator of the suprachiasmatic nucleus (SCN). In this study, we tested whether estradiol plays a role in regulating the circadian responses to acute (light pulses) and chronic light exposure (constant light [LL] vs standard light:dark [LD] cycle) in female C57BL6/NJ mice. Mice were either ovariectomized or given sham surgery and given a placebo (P) or estradiol (E) pellet for hormone replacement so that there were 6 groups: (1) LD/Sham, (2) LL/Sham, (3) LD/OVX + P, (4) LL/OVX + P, (5) LD/OVX + E, and (6) LL/OVX + E. After 65 days of light cycle exposure, blood and SCNs were removed and serum estradiol plus SCN estradiol receptor alpha (ERα) and estradiol receptor beta (ERß) were measured via ELISA. The OVX + P mice exhibited shorter circadian periods and were more likely to become arrhythmic in LL compared with mice with intact estradiol (sham or E replacement mice). The OVX + P mice exhibited reduced circadian robustness (power) and reduced circadian locomotor activity in both LD and LL compared with sham controls or OVX + E mice. The OVX + P mice also exhibited later activity onsets in LD and attenuated phase delays, but not advances, when given a 15-min light pulse compared with estradiol intact mice. LL led to reductions in ERß, but not ERα, regardless of the surgery type. These results indicate that estradiol can modulate the effects of light on the circadian timing system and that estradiol can enhance responses to light exposure and provide protection against a loss of circadian robustness.

Strain specific behavioral and physiological responses to constant light in male CBA/J and CBA/CaJ mice.

OBJECTIVE: Being visually impaired increases the likelihood of sleep disorders and altered behavior. This study investigated physiological and behavioral differences in two similar mice substrains when exposed to constant light (LL) - CBA/J with retinal degeneration and CBA/CaJ mice (no retinal degeneration). MATERIAL AND METHODS: Male CBA/J and CBA/CaJ mice were placed into a 12:12 light:dark cycle or constant light (LL). Open field behavior, metabolic markers, and home-cage circadian activity were observed. RESULTS: CBA/CaJ mice have greater circadian period lengthening, increased weight gain, reduced glucose, and increased novelty-induced locomotor activity in LL, compared to CBA/J mice. LL reduced thyroid hormone and insulin in both substrains. DISCUSSION: While several baseline substrain differences were elucidated, CBA/CaJ mice were more effected by the exposure to LL than the blind CBA/J mice. These results illustrate that LL causes alterations in physiology and behavior and that circadian photoreceptivity might contribute to these effects.