Abstract
Tanycytes are highly specialized ependymal cells that line the bottom and the lateral walls of the third ventricle. In contact with the cerebrospinal fluid through their cell bodies, they send processes into the arcuate nucleus, the ventromedial nucleus, and the dorsomedial nucleus of the hypothalamus. In the present work, we combined transgenic and immunohistochemical approaches to investigate the neuroanatomical associations between tanycytes and neural cells present in the hypothalamic parenchyma, in particular in the arcuate nucleus. The specific expression of tdTomato in tanycytes first allowed the observation of peculiar subcellular protrusions along tanycyte processes and at their endfeet such as spines, swelling, en passant boutons, boutons, or claws. Interestingly, these protrusions contact different neural cells in the brain parenchyma including blood vessels and neurons, and in particular NPY and POMC neurons in the arcuate nucleus. Using both fluorescent and electron microscopy, we finally observed that these tanycyte protrusions contain ribosomes, mitochondria, diverse vesicles, and transporters, suggesting dense tanycyte/neuron and tanycyte/blood vessel communications. Altogether, our results lay the neuroanatomical basis for tanycyte/neural cell interactions, which will be useful to further understand cell‐to‐cell communications involved in the regulation of neuroendocrine functions.
Highlights
The ependyma lining the ventricular system and the ependymal canal is largely described as a single layer of multiciliated and cuboidal cells (Jiménez, Domínguez-Pinos, Guerra, Fernández-Llebrez, & PérezFígares, 2014)
Described along the lateral walls and the floor of the third ventricle (3V), tanycytes directly contact the cerebrospinal fluid through their apical surface, and send a single basal process that extends into hypothalamic regions including the median eminence (ME), the arcuate nucleus (ARH), the ventromedial nucleus (VMH) and the dorsomedial nucleus (DMH) (Mullier, Bouret, Prevot, & Dehouck, 2010)
Β2 tanycytes line the ME, β1 tanycytes line the lateral evaginations of the infundibular recess and the ventromedial ARH, α2 tanycytes line the area of the dorsomedial ARH, and α1 tanycytes line the VMH and DMH (Langlet, 2019; Mirzadeh et al, 2017; Rodríguez, Guerra, Peruzzo, & Blázquez, 2019; Rodríguez et al, 2005)
Summary
The ependyma lining the ventricular system and the ependymal canal is largely described as a single layer of multiciliated and cuboidal cells (Jiménez, Domínguez-Pinos, Guerra, Fernández-Llebrez, & PérezFígares, 2014). Β2 tanycytes line the ME, β1 tanycytes line the lateral evaginations of the infundibular recess and the ventromedial ARH (vmARH), α2 tanycytes line the area of the dorsomedial ARH (dmARH), and α1 tanycytes line the VMH and DMH (Langlet, 2019; Mirzadeh et al, 2017; Rodríguez, Guerra, Peruzzo, & Blázquez, 2019; Rodríguez et al, 2005) This heterogeneity among tanycyte populations allows them to participate in the regulation of numerous neuroendocrine functions—such as the control of energy balance, reproduction and seasonal adaptations— through their diverse cellular properties including blood/brain traffic controllers, metabolic sensors, modulators of cell function, and neural stem/ progenitor cells (Langlet, 2014, 2019; Prevot et al, 2018). Our results allowed us to speculate about specific tanycyte-to-neural cell communications
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