Hypothalamic tanycytes as mediators of maternally programmed seasonal plasticity
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https://hdl.handle.net/10037/35128Date
2024-01-12Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Melum, Vebjørn Jacobsen; Sáenz de Miera, Cristina; Markussen, Fredrik Andreas Fasth; Cazarez Marquez, Fernando; Jaeger, Catherine; Sandve, Simen Rød; Simonneaux, Valérie; Hazlerigg, David Grey; Wood, Shona HiediAbstract
In mammals, maternal photoperiodic programming (MPP) provides a means whereby juvenile development
can be matched to forthcoming seasonal environmental conditions.1–4 This phenomenon is driven by in utero
effects of maternal melatonin5–7 on the production of thyrotropin (TSH) in the fetal pars tuberalis (PT) and
consequent TSH receptor-mediated effects on tanycytes lining the 3rd ventricle of the mediobasal hypothalamus (MBH).8–10 Here we use LASER capture microdissection and transcriptomic profiling to show that TSHdependent MPP controls the attributes of the ependymal region of the MBH in juvenile animals. In Siberian
hamster pups gestated and raised on a long photoperiod (LP) and thereby committed to a fast trajectory
for growth and reproductive maturation, the ependymal region is enriched for tanycytes bearing sensory cilia
and receptors implicated in metabolic sensing. Contrastingly, in pups gestated and raised on short photoperiod (SP) and therefore following an over-wintering developmental trajectory with delayed sexual maturation,
the ependymal region has fewer sensory tanycytes. Post-weaning transfer of SP-gestated pups to an intermediate photoperiod (IP), which accelerates reproductive maturation, results in a pronounced shift toward a
ciliated tanycytic profile and formation of tanycytic processes. We suggest that tanycytic plasticity constitutes a mechanism to tailor metabolic development for extended survival in variable overwintering environments.
Publisher
ElsevierCitation
Melum, Sáenz de Miera, Markussen, Cazarez Marquez, Jaeger, Sandve, Simonneaux, Hazlerigg, Wood. Hypothalamic tanycytes as mediators of maternally programmed seasonal plasticity. Current Biology. 2024;34(3):632-640.e6Metadata
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