Effects of different lighting regimes on daily hormonal and behavioural rhythms in the pregnant ewe and sheep fetus

Simulated shift work disrupts maternal circadian rhythms and metabolism, and increases gestation length in sheep

KEY POINTS

Shift work impairs metabolic health, although its effects during pregnancy are not well understood We evaluated the effects of a simulated shift work protocol for one-third, two-thirds or all of pregnancy on maternal and pregnancy outcomes in sheep. Simulated shift work changed the timing of activity, disrupted hormonal and cellular rhythms, and impaired maternal glucose tolerance during early pregnancy. Gestation length was increased in twin pregnancies, whereas singleton lambs were lighter at a given gestational age if mothers were subjected to shift work conditions in the first one-third of pregnancy. Exposure to rotating night and day shifts, even if only in early pregnancy, may adversely affect maternal metabolic and pregnancy outcomes.

ABSTRACT

Shift workers are at increased risk of developing type 2 diabetes and obesity; however, the impact during pregnancy on maternal metabolism is unknown. Using a large animal model, we assessed the impact of simulated shift work (SSW) exposure during pregnancy on maternal circadian rhythms, glucose tolerance and pregnancy outcomes. Following mating, ewes were randomly allocated to a control photoperiod (CON 12 h light, 12 h dark) or to SSW, where the timing of light exposure and food presentation was reversed twice each week for one-third, two-thirds or all of pregnancy. Maternal behaviour followed SSW cycles with increased activity during light exposure and feeding. Melatonin rhythms resynchronized within 2 days of the photoperiod shift, whereas peripheral circadian rhythms were arrhythmic. SSW impaired glucose tolerance (+29%, P = 0.019) and increased glucose-stimulated insulin secretion (+32%, P = 0.018) in ewes with a singleton fetus in early but not late gestation. SSW exposure did not alter rates of miscarriage or stillbirth, although it extended gestation length in twin pregnancies (+2.4 days, P = 0.032). Relative to gestational age, birth weight was lower in singleton progeny of SSW than CON ewes (-476 g, P = 0.016). These results have implications for the large number of women currently engaged in shift work, and further studies are required to determine progeny health impacts.

Nocturnal variation of prolactin secretion in the Mouflon (Ovis gmelini musimon) and domestic sheep (Ovis aries): seasonal changes

Seasonal changes in nocturnal prolactin secretion and their relationship with melatonin secretion were monitored in wild (Mouflon, Ovis gmelini musimon) and domesticated sheep (breed Manchega, Ovis aries). Two groups of eleven adult females each, were maintained outdoors under natural photoperiod. Plasma concentrations of prolactin and melatonin were determined during the summer and winter solstices and the autumn and spring equinoxes. Blood samples were collected every 3h during the night hours, and 1h before and after the onset of darkness and sunrise. Maximum mean plasma concentrations of prolactin during the dark-phase in Mouflons were observed in the summer solstice, (P<0.001) and in the summer solstice and spring equinox in Manchega ewes (P<0.001). Mean plasma concentrations of prolactin were higher in the wild species (P<0.001) during the summer solstice. In contrast, during the spring equinox, mean levels of prolactin were higher in Manchega ewes than in Mouflons (P<0.05). Plasma prolactin concentrations showed a nocturnal rhythm in both breeds, with seasonal variations (P<0.001). The increase in plasma melatonin levels during the first hour after sunset was accompanied to increasing concentrations of PRL 1h after the onset of darkness, only in the autumn and spring equinox for the Mouflon, and in the summer solstice and spring equinox for the Manchega ewes. In Mouflons, the fall of plasma PRL concentrations about the middle dark-phase in all the periods studied, coincided with high levels of melatonin. A similar relation was observed in Manchega ewes only in the winter solstice and spring equinox. The current study shows that the nocturnal rhythm of prolactin secretion exhibits seasonal variation; differences in the patterns of prolactin secretion between Mouflon and Manchega sheep are taken to represent the effects of genotype.

Differences in rhythms of enzymatic activity of maternal and fetal blood

Blood specimens were obtained at different daily times from the umbilical cord and brachial vein from 53 women within 10 minutes after delivery. Enzyme activities were measured in the white blood cells (WBCs) and serum of each sample. For each enzyme, the results were grouped according to sampling (delivery) times and arrayed to form a 24h time series. Separate time series were generated for maternal and fetal enzymes. Analysis of variance (ANOVA) and cosine best-fit analyses were applied to elucidate significant differences between enzyme activity patterns of mothers and fetuses with regard to time dependency, number of peaks, and acrophases. These and previously documented results indicate that not all mothers and fetuses have rhythms that are concordant. For some enzymes of fetuses, the activity rhythms differ in phase and shape of the time series pattern from those of the mothers; for other enzymes, the activity rhythms develop after birth.

The development of diurnal rhythmicity in fetal suprachiasmatic neurons as demonstrated by fos immunohistochemistry

Using Fos immunohistochemistry as a marker of cellular activity, we have shown that neurons in the suprachiasmatic nucleus of fetal sheep are active by 75 days gestation. From at least 90 days gestation (term is 146 days), these neurons are more active during the day (12.00) than at night (03.00) when pregnant ewes are exposed to a 12-h light-dark cycle with lights on at 07.00. The day-night difference in Fos immunoreactivity persisted when the lighting schedule was extended by 8 h to 03.00, although neurons were now more active at 03.00 than they were in fetuses maintained on the normal light-dark cycle. When ewes were maintained in constant light from 133 to 138 days, the day-night difference in Fos immunoreactivity in the fetal suprachiasmatic nucleus was abolished, suggesting that diurnal activity of the fetal suprachiasmatic nucleus is maintained by a signal related to the external lighting regime. In a twin pregnancy where one fetus was optically enucleated at 100 days gestation, the density of Fos-immunoreactive neurons in the suprachiasmatic nucleus during the day at 138 days was similar to the unoperated twin. This suggests that the effects of dim light in the uterus on the fetal retina do not account for the high level of Fos immunoreactivity in the suprachiasmatic nucleus in the daytime. We propose that a chemical messenger of maternal origin, possibly melatonin, suppresses the activity of fetal suprachiasmatic neurons during the night, and that fetal suprachiasmatic neurons have endogenous activity which is expressed fully during the daytime.