Abstract
Maternal stress has long-lasting influences on the brain functions of offspring, and several brain regions have been proposed to mediate such programming. Although perinatal programming of crosstalk between the circadian and stress systems has been proposed, the functional consequences of prenatal stress on the circadian system and the underlying mechanisms remain largely unknown. Therefore, we investigated whether exposing pregnant mice to chronic restraint stress had prolonged effects on the suprachiasmatic nucleus (SCN), which bears the central pacemaker for mammalian circadian rhythms, of offspring. SCN explants from maternally stressed mice exhibited altered cyclic expression patterns of a luciferase reporter under control of the mouse Per1 promoter (mPer1::LUC), which manifested as a decreased amplitude and impaired stability of the rhythm. Bioluminescence imaging at the single-cell level subsequently revealed that impaired synchrony among individual cells was responsible for the impaired rhythmicity. These intrinsic defects appeared to persist during adulthood. Adult male offspring from stressed mothers showed advanced-phase behavioral rhythms with impaired stability as well as altered clock gene expression in the SCN. In addition to affecting the central rhythm, maternal stress also had prolonged influences on the circadian characteristics of the adrenal gland and liver, as determined by circulating corticosterone levels and hepatic glycogen content, and on canonical clock gene mRNA expression in those tissues. Taken together, our findings suggest that the SCN is a key target of the programming effects of maternal stress. The widespread effects of circadian disruptions caused by a misprogrammed clock may have further impacts on metabolic and mental health in later life.
Highlights
The in utero environment can profoundly affect the life of the offspring from the fetal stage through adulthood, and these effects are known as programming effects
To test the idea that maternal stress has a long-lasting influence on the central clock of the circadian system, we examined the circadian characteristics of suprachiasmatic nucleus (SCN) explant cultures prepared from maternally stressed (STR) offspring
The present study clearly demonstrated that maternal stress attenuated the amplitude of cyclic mouse Per1 promoter (mPer1)::LUC expression in cultured SCN explants via a mechanism that was associated with impaired synchrony among individual SCN cells, implying that intrinsic defects in the master oscillator were caused by prenatal exposure to stress
Summary
The in utero environment can profoundly affect the life of the offspring from the fetal stage through adulthood, and these effects are known as programming effects. Circadian rhythm refers to biological oscillations that have a period of ~24 h and coordinate behavioral and physiological processes to facilitate adaptation to expected daily changes in the environment. This rhythm is generated by an internal timekeeping system, which is based on genetic components of a system called the circadian molecular clock[9,10]. The ablation of the SCN results in the complete loss of the circadian rhythmicity of wheelrunning activity and sleep-wake cycles in rodents, and the transplantation of fetal SCN tissue restores circadian locomotor rhythms with a period that is exclusively dependent on the period of the donor[11,12]. These findings strongly support the idea that the SCN is an indispensable regulator of behavioral outputs regulated by circadian rhythms
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