Binary switching of calendar cells in the pituitary defines the phase of the circannual cycle in mammals

Christian, H; Wood, S; Miedzinska, K; Saer, B; Johnson, M; Paton, B; Yu, L; McNeilly, J; Davis, J; McNeilly, A; Burt, D; Loudon, A

Journal article

Binary switching of calendar cells in the pituitary defines the phase of the circannual cycle in mammals

Abstract:: Persistent free-running circannual (approximately year-long) rhythms have evolved in animals to regulate hormone cycles, drive metabolic rhythms (including hibernation), and time annual reproduction. Recent studies have defined the photoperiodic input to this rhythm, wherein melatonin acts on thyrotroph cells of the pituitary pars tuberalis (PT), leading to seasonal changes in the control of thyroid hormone metabolism in the hypothalamus. However, seasonal rhythms persist in constant conditions in many species in the absence of a changing photoperiod signal, leading to the generation of circannual cycles. It is not known which cells, tissues, and pathways generate these remarkable long-term rhythmic processes. We show that individual PT thyrotrophs can be in one of two binary states reflecting either a long (EYA3+) or short (CHGA+) photoperiod, with the relative proportion in each state defining the phase of the circannual cycle. We also show that a morphogenic cycle driven by the PT leads to extensive re-modeling of the PT and hypothalamus over the circannual cycle. We propose that the PT may employ a recapitulated developmental pathway to drive changes in morphology of tissues and cells. Our data are consistent with the hypothesis that the circannual timer may reside within the PT thyrotroph and is encoded by a binary switch timing mechanism, which may regulate the generation of circannual neuroendocrine rhythms, leading to dynamic re-modeling of the hypothalamic interface. In summary, the PT-ventral hypothalamus now appears to be a prime structure involved in long-term rhythm generation.

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Christian, H., Wood, S., Miedzinska, K., Saer, B., Johnson, M., Paton, B., Yu, L., McNeilly, J., Davis, J., McNeilly, A., Burt, D., & Loudon, A. (2015). Binary switching of calendar cells in the pituitary defines the phase of the circannual cycle in mammals. Current Biology, 25(20), 2651–2662.

MLA Style

Christian, H., et al. “Binary Switching of Calendar Cells in the Pituitary Defines the Phase of the Circannual Cycle in Mammals.” Current Biology, vol. 25, no. 20, Cell Press, 2015, pp. 2651–62.

Chicago Style

Christian, H, S Wood, K Miedzinska, B Saer, M Johnson, B Paton, L Yu, et al. 2015. “Binary Switching of Calendar Cells in the Pituitary Defines the Phase of the Circannual Cycle in Mammals.” Current Biology 25 (20): 2651–62.
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