Short-active photoperiod gestation induces psychiatry-relevant behavior in healthy mice but a resiliency to such effects are seen in mice with reduced dopamine transporter expression

Molly A Kwiatkowski,Maria L Lavadia,Zackary A Cope,Chuck J A Van De Cappelle,Jared W Young,Davide Dulcis

doi:10.1038/s41598-020-66873-2

Abstract

A higher incidence of multiple psychiatric disorders occurs in people born in late winter/early spring. Reduced light exposure/activity level impacts adult rodent behavior and neural mechanisms, yet few studies have investigated such light exposure on gestating fetuses. A dysfunctional dopamine system is implicated in most psychiatric disorders, and genetic polymorphisms reducing expression of the dopamine transporter (DAT) are associated with some conditions. Furthermore, adult mice with reduced DAT expression (DAT-HT) were hypersensitive to short active (SA; 19:5 L:D) photoperiod exposure versus their wildtype (WT) littermates. Effects of SA photoperiod exposure during gestation in these mice have not been examined. We confirmed adult females exhibit a heightened corticosterone response when in SA photoperiod. We then tested DAT-HT mice and WT littermates in psychiatry-relevant behavioral tests after SA or normal active (NA; 12:12 L:D) photoperiod exposure during gestation and early life. SA-born WT mice exhibited sensorimotor gating deficits (males), increased reward preference, less immobility, open arm avoidance (females), less motivation to obtain a reward, and reversal learning deficits, vs. NA-born WT mice. DAT-HT mice were largely resilient to these effects, however. Future studies will determine the mechanism(s) by which SA photoperiod exposure influences brain development to predispose toward emergence of psychiatry-relevant behaviors.

Highlights

A higher incidence of multiple psychiatric disorders occurs in people born in late winter/early spring
A main effect of photoperiod was observed in male WT mice, with short active (SA)-born male WT mice exhibiting deficient prepulse inhibition (PPI) compared to normal active (NA)-born male WT mice (F(1,64) = 5.5, p < 0.05)
There was a main effect of genotype in female mice (F(1,102) = 9.4, p < 0.01), with female dopamine transporter (DAT)-HT mice exhibiting deficient PPI compared to female WT littermates

Summary

Introduction

A higher incidence of multiple psychiatric disorders occurs in people born in late winter/early spring. Exposure to short active (SA; winter-like; 19:5 light:dark (L:D)) photoperiod increased stress-related hormones as well as psychiatry-relevant behavioral changes[14]. A 14-day SA photoperiod exposure induced similar behavioral and neurotransmitter changes in mice, effects that were exaggerated in mice with reduced dopamine transporter (DAT) expression[15]. The effects of this stress-related response to winter-like-induced inactivity on gestation, have yet to be investigated. We hypothesized that: 1) mice born/raised in SA photoperiod would exhibit psychiatry-relevant behavior vs. NA-born mice; and 2) DAT-HT mice would be hypersensitive to SA-induced behavioral changes compared to WT mice

Methods

Results

Conclusion