Tanycytes control the hormonal output of the hypothalamic-pituitary-thyroid axis

Müller-Fielitz, Helge; Stahr, M; Bernau, Mareike; Richter, Marius; Abele, Sebastian; Krajka, Victor; Benzin, Anika; Wenzel, Jan; Kalies, Kathrin; Mittag, Jens; Heuer, Heike; Offermanns, Stefan; Schwaninger, Markus

doi:10.1038/s41467-017-00604-6

Cited by 88 publications

(96 citation statements)

References 64 publications

(96 reference statements)

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“…95 In the third ventricle of the rabbit, a great number of axons with bulb-like endings have been described by Leonhardt and Backhus-Roth. 95 In the third ventricle of the rabbit, a great number of axons with bulb-like endings have been described by Leonhardt and Backhus-Roth.…”

Section: Axon-tanycytes Contactsmentioning

confidence: 99%

“…tanycytes and increases the size of tanycyte end-feet resulting in a reduction in TRH release into the portal blood. 95 In the third ventricle of the rabbit, a great number of axons with bulb-like endings have been described by Leonhardt and Backhus-Roth. 94 These terminals contain small clear vesicles, dense cored vesicles and mitochondria.…”

Section: Stimulation Of the Trh Receptor 1 Stimulates Intracellular Cmentioning

confidence: 99%

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Tanycytes: A rich morphological history to underpin future molecular and physiological investigations

Rodríguez

Guerra

Peruzzo

et al. 2019

J Neuroendocrinology

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Tanycytes are located at the base of the brain and retain characteristics from their developmental origins, such as radial glial cells, throughout their life span. With transport mechanisms and modulation of tight junction proteins, tanycytes form a bridge connecting the cerebrospinal fluid with the external limiting basement membrane. They also retain the powers of self‐renewal and can differentiate to generate neurones and glia. Similar to radial glia, they are a heterogeneous family with distinct phenotypes. Although the four subtypes so far distinguished display distinct characteristics, further research is likely to reveal new subtypes. In this review, we have re‐visited the work of the pioneers in the field, revealing forgotten work that is waiting to inspire new research with today's cutting‐edge technologies. We have conducted a systematic ultrastructural study of α‐tanycytes that resulted in a wealth of new information, generating numerous questions for future study. We also consider median eminence pituicytes, a closely‐related cell type to tanycytes, and attempt to relate pituicyte fine morphology to molecular and functional mechanism. Our rationale was that future research should be guided by a better understanding of the early pioneering work in the field, which may currently be overlooked when interpreting newer data or designing new investigations.

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Section: Axon-tanycytes Contactsmentioning

confidence: 99%

Section: Stimulation Of the Trh Receptor 1 Stimulates Intracellular Cmentioning

confidence: 99%

Tanycytes: A rich morphological history to underpin future molecular and physiological investigations

Rodríguez

Guerra

Peruzzo

et al. 2019

J Neuroendocrinology

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“…Significant increases in serum TSH and neurotensin levels were observed in tanycyte-ablated mice following short-term treatment ( . Because tanycytes produce thyroid hormone converting enzyme [29], and have been linked to regulation of TRH release from hypothalamic neurosecretory cells [9,19,30], we further investigated whether short-term tanycyte-ablation compromised the response of the hypothalamic-pituitary-thyroid axis to an acute cold challenge. While serum TSH levels were consistently elevated following 2 hour cold exposure, no significant difference was observed between control and tanycyte-ablated mice ( Fig.…”

Section: Increased Fasting-induced Food Intake and Reduced Insulin Sementioning

confidence: 99%

“…Their location at the interface between the hypothalamus and circulatory system allows tanycytes to regulate a broad range of processes relevant to hypothalamic physiology. These include control of the blood-hypothalamus barrier [3,4], energy and nutrient sensing [5][6][7], and regulation of neurohormone release [8,9]. Tanycytes also express many markers of neural progenitor cells, and have been reported to show limited neurogenic potential [10][11][12].Recently, there has been growing interest in the potential role of tanycytes in regulating energy metabolism [5,13,14].…”

mentioning

confidence: 99%

“…Tanycytes also express many markers of neural progenitor cells, and have been reported to show limited neurogenic potential [10][11][12].Recently, there has been growing interest in the potential role of tanycytes in regulating energy metabolism [5,13,14]. Tanycytes have been reported to directly sense glucose and amino acid levels in CSF and blood [15][16][17], to actively transport leptin into the hypothalamus [18], and to regulate production and release of thyroid releasing hormone (TRH) [9,19]. However, these studies have not directly investigated whether tanycytes are indeed necessary for regulating these processes.…”

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confidence: 99%

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Ablation of tanycytes of the arcuate nucleus and median eminence increases visceral adiposity and decreases insulin sensitivity in male mice

Yoo

Cha

Kim³

et al. 2019

Preprint

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Tanycytes are radial glial cells located in the mediobasal hypothalamus. Recent studies have proposed that tanycytes play an important role in hypothalamic control of energy homeostasis, although this has not been directly tested. Here, we report the phenotype of mice in which tanycytes of the arcuate nucleus and median eminence were conditionally ablated. Although the CSF-hypothalamic barrier was rendered more permeable, the blood-hypothalamic barrier was not altered. The metabolic effects of tanycyte ablation were likewise moderate. However, we consistently observed a significant increase in visceral fat distribution accompanying insulin insensitivity, but only in male mice, and without an effect on either body weight or food intake. A high-fat diet accelerated overall body weight gain in tanycyte-ablated mice, but the development of visceral adiposity and insulin insensitivity was attenuated. These results clarify the extent to which tanycytes regulate energy metabolism, and indicate a role for tanycytes in controlling body adiposity. Introduction:Tanycytes are radial glia that line the ventricular wall of the mediobasal hypothalamus. These are divided into alpha-and beta-subtypes, based on their dorsoventral position along the third ventricle. They extend elongated foot processes away from the ventricle, which terminate either on blood vessels in the hypothalamic parenchyma or at the ventral pial surface [1]. Beta-tanycytes reside outside the blood-brain barrier, and directly contact fenestrated capillaries in the median eminence [2]. Their location at the interface between the hypothalamus and circulatory system allows tanycytes to regulate a broad range of processes relevant to hypothalamic physiology. These include control of the blood-hypothalamus barrier [3,4], energy and nutrient sensing [5][6][7], and regulation of neurohormone release [8,9]. Tanycytes also express many markers of neural progenitor cells, and have been reported to show limited neurogenic potential [10][11][12].Recently, there has been growing interest in the potential role of tanycytes in regulating energy metabolism [5,13,14]. Tanycytes have been reported to directly sense glucose and amino acid levels in CSF and blood [15][16][17], to actively transport leptin into the hypothalamus [18], and to regulate production and release of thyroid releasing hormone (TRH) [9,19]. However, these studies have not directly investigated whether tanycytes are indeed necessary for regulating these processes. It has thus far not been possible to selectively ablate tanycytes, and to directly observe the resulting effects on metabolism, or any other physiological process. This has been the major obstacle to an accurate understanding of their roles in normal hypothalamic physiology.The development of transgenic mice that express tamoxifen-inducible tanycytespecific Cre recombinase has made it possible to analyze the acute physiological effects of tanycyte ablation [20]. When crossed to mice expressing Cre-dependent Eno2-lsl-DTA [21], Results: 1. Condition...

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Unveiling the Importance of Glia and Vascular Endothelial Cells in the Control of GnRH Neuronal Function

Prévot

Sharif

2018

The GnRH Neuron and Its Control

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Tanycytes control the hormonal output of the hypothalamic-pituitary-thyroid axis

Cited by 88 publications

References 64 publications

Tanycytes: A rich morphological history to underpin future molecular and physiological investigations

Tanycytes: A rich morphological history to underpin future molecular and physiological investigations

Ablation of tanycytes of the arcuate nucleus and median eminence increases visceral adiposity and decreases insulin sensitivity in male mice

Unveiling the Importance of Glia and Vascular Endothelial Cells in the Control of GnRH Neuronal Function

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