Abstract
In nature Siberian hamsters utilize the decrement in day length following the summer solstice to implement physiological adaptations in anticipation of the forthcoming winter, but also exploit an intrinsic interval timer to initiate physiological recrudescence following the winter solstice. However, information is lacking on the temporal dynamics in natural photoperiod of photoperiodically regulated genes and their relationship to physiological adaptations. To address this, male Siberian hamsters born and maintained outdoors were sampled every month over the course of one year. As key elements of the response to photoperiod, thyroid hormone signalling components were assessed in the hypothalamus. From maximum around the summer solstice (late-June), Dio2 expression rapidly declined in advance of physiological adaptations. This was followed by a rapid increase in Mct8 expression (T3/T4 transport), peaking early-September before gradually declining to minimum expression by the following June. Dio3 showed a transient peak of expression beginning late-August. A recrudescence of testes and body mass occurred from mid-February, but Dio2 expression remained low until late-April of the following year, converging with the time of year when responsiveness to short-day length is re-established. Other photoperiodically regulated genes show temporal regulation, but of note is a transient peak in Gpr50 around late-July.
Highlights
In nature Siberian hamsters utilize the decrement in day length following the summer solstice to implement physiological adaptations in anticipation of the forthcoming winter, and exploit an intrinsic interval timer to initiate physiological recrudescence following the winter solstice
In LD, hypothalamic T3 availability is facilitated by TSH produced by the pars tuberalis (PT) acting on hypothalamic tanycytes to increase the expression of type 2 deiodinase (Dio2), enabling a higher rate of conversion of T4 to T3 to drive LD physiology
Aim of this study was to investigate the temporal kinetics of photoperiod regulated genes in a natural photoperiod over the period of one year in order to place hypothalamic gene expression, genes involved in thyroid hormone signalling, into a temporal context in relation to body weight and reproductive physiology
Summary
In nature Siberian hamsters utilize the decrement in day length following the summer solstice to implement physiological adaptations in anticipation of the forthcoming winter, and exploit an intrinsic interval timer to initiate physiological recrudescence following the winter solstice. From maximum around the summer solstice (late-June), Dio[2] expression rapidly declined in advance of physiological adaptations. A recrudescence of testes and body mass occurred from mid-February, but Dio[2] expression remained low until late-April of the following year, converging with the time of year when responsiveness to short-day length is re-established. In addition to deiodinase genes, other genes change expression in response to a change in photoperiod including the thyroid hormone transporter monocarboxylate transporter 8 (Mct8), intermediate filament proteins Nestin and Vimentin, components of retinol transport and metabolism, an orphan G-protein coupled receptor, Gpr[50] in tanycytes[14,15], Vgf (non-acronymic) in the dorsal posterior ARC (dmpARC) and Srif (somatostatin) in the arcuate nucleus (ARC)[11,14,15,16]. The role of each of these genes in adapting physiology to the different seasons is still unknown
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