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Amino acid sensing in hypothalamic tanycytes via umami taste receptors.


ABSTRACT: OBJECTIVE:Hypothalamic tanycytes are glial cells that line the wall of the third ventricle and contact the cerebrospinal fluid (CSF). While they are known to detect glucose in the CSF we now show that tanycytes also detect amino acids, important nutrients that signal satiety. METHODS:Ca2+ imaging and ATP biosensing were used to detect tanycyte responses to l-amino acids. The downstream pathway of the responses was determined using ATP receptor antagonists and channel blockers. The receptors were characterized using mice lacking the Tas1r1 gene, as well as an mGluR4 receptor antagonist. RESULTS:Amino acids such as Arg, Lys, and Ala evoke Ca2+ signals in tanycytes and evoke the release of ATP via pannexin 1 and CalHM1, which amplifies the signal via a P2 receptor dependent mechanism. Tanycytes from mice lacking the Tas1r1 gene had diminished responses to lysine and arginine but not alanine. Antagonists of mGluR4 greatly reduced the responses to alanine and lysine. CONCLUSION:Two receptors previously implicated in taste cells, the Tas1r1/Tas1r3 heterodimer and mGluR4, contribute to the detection of a range of amino acids by tanycytes in CSF.

SUBMITTER: Lazutkaite G 

PROVIDER: S-EPMC5681271 | biostudies-literature | 2017 Nov

REPOSITORIES: biostudies-literature

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Amino acid sensing in hypothalamic tanycytes via umami taste receptors.

Lazutkaite Greta G   Soldà Alice A   Lossow Kristina K   Meyerhof Wolfgang W   Dale Nicholas N  

Molecular metabolism 20170914 11


<h4>Objective</h4>Hypothalamic tanycytes are glial cells that line the wall of the third ventricle and contact the cerebrospinal fluid (CSF). While they are known to detect glucose in the CSF we now show that tanycytes also detect amino acids, important nutrients that signal satiety.<h4>Methods</h4>Ca<sup>2+</sup> imaging and ATP biosensing were used to detect tanycyte responses to l-amino acids. The downstream pathway of the responses was determined using ATP receptor antagonists and channel bl  ...[more]

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