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Seasonal changes in day length induce multisynaptic neurotransmitter switching to regulate hypothalamic network activity and behavior.


ABSTRACT: Seasonal changes in day length (photoperiod) affect numerous physiological functions. The suprachiasmatic nucleus (SCN)-paraventricular nucleus (PVN) axis plays a key role in processing photoperiod-related information. Seasonal variations in SCN and PVN neurotransmitter expression have been observed in humans and animal models. However, the molecular mechanisms by which the SCN-PVN network responds to altered photoperiod is unknown. Here, we show in mice that neuromedin S (NMS) and vasoactive intestinal polypeptide (VIP) neurons in the SCN display photoperiod-induced neurotransmitter plasticity. In vivo recording of calcium dynamics revealed that NMS neurons alter PVN network activity in response to winter-like photoperiod. Chronic manipulation of NMS neurons is sufficient to induce neurotransmitter switching in PVN neurons and affects locomotor activity. Our findings reveal previously unidentified molecular adaptations of the SCN-PVN network in response to seasonality and the role for NMS neurons in adjusting hypothalamic function to day length via a coordinated multisynaptic neurotransmitter switching affecting behavior.

SUBMITTER: Porcu A 

PROVIDER: S-EPMC10848959 | biostudies-literature | 2022 Sep

REPOSITORIES: biostudies-literature

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Seasonal changes in day length induce multisynaptic neurotransmitter switching to regulate hypothalamic network activity and behavior.

Porcu Alessandra A   Nilsson Anna A   Booreddy Sathwik S   Barnes Samuel A SA   Welsh David K DK   Dulcis Davide D  

Science advances 20220902 35


Seasonal changes in day length (photoperiod) affect numerous physiological functions. The suprachiasmatic nucleus (SCN)-paraventricular nucleus (PVN) axis plays a key role in processing photoperiod-related information. Seasonal variations in SCN and PVN neurotransmitter expression have been observed in humans and animal models. However, the molecular mechanisms by which the SCN-PVN network responds to altered photoperiod is unknown. Here, we show in mice that neuromedin S (NMS) and vasoactive in  ...[more]

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