Inhibition of glycine transporter-1 in the dorsal vagal complex improves metabolic homeostasis in diabetes and obesity

Inhibition of glycine transporter-1 in the dorsal vagal complex improves metabolic homeostasis in diabetes and obesity

Glycine sensing in the dorsal vagal complex (DVC) regulates hepatic glucose production in rodents. Here the authors show that pharmacological and molecular inhibition of glycine reuptake in the DVC potentiates NMDA receptors, and improves metabolic homeostasis in animal models of obesity and diabete...

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Main Authors: Jessica T. Y. Yue, Mona A. Abraham, Paige V. Bauer, Mary P. LaPierre, Peili Wang, Frank A. Duca, Beatrice M. Filippi, Owen Chan, Tony K. T. Lam
Format: Article
Language:English
Published: Nature Publishing Group 2016-11-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/ncomms13501
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spelling doaj-39518d1b32d94bf387969a5e946ba9b72021-05-11T11:04:34ZengNature Publishing GroupNature Communications2041-17232016-11-017111110.1038/ncomms13501Inhibition of glycine transporter-1 in the dorsal vagal complex improves metabolic homeostasis in diabetes and obesityJessica T. Y. Yue0Mona A. Abraham1Paige V. Bauer2Mary P. LaPierre3Peili Wang4Frank A. Duca5Beatrice M. Filippi6Owen Chan7Tony K. T. Lam8Toronto General Hospital Research Institute and Department of Medicine, UHNToronto General Hospital Research Institute and Department of Medicine, UHNToronto General Hospital Research Institute and Department of Medicine, UHNToronto General Hospital Research Institute and Department of Medicine, UHNDepartment of Internal Medicine, Section of Endocrinology, Yale University School of MedicineToronto General Hospital Research Institute and Department of Medicine, UHNToronto General Hospital Research Institute and Department of Medicine, UHNDepartment of Internal Medicine, Section of Endocrinology, Yale University School of MedicineToronto General Hospital Research Institute and Department of Medicine, UHNGlycine sensing in the dorsal vagal complex (DVC) regulates hepatic glucose production in rodents. Here the authors show that pharmacological and molecular inhibition of glycine reuptake in the DVC potentiates NMDA receptors, and improves metabolic homeostasis in animal models of obesity and diabetes.https://doi.org/10.1038/ncomms13501
collection DOAJ
language English
format Article
sources DOAJ
author Jessica T. Y. Yue
Mona A. Abraham
Paige V. Bauer
Mary P. LaPierre
Peili Wang
Frank A. Duca
Beatrice M. Filippi
Owen Chan
Tony K. T. Lam
spellingShingle Jessica T. Y. Yue
Mona A. Abraham
Paige V. Bauer
Mary P. LaPierre
Peili Wang
Frank A. Duca
Beatrice M. Filippi
Owen Chan
Tony K. T. Lam
Inhibition of glycine transporter-1 in the dorsal vagal complex improves metabolic homeostasis in diabetes and obesity
Nature Communications
author_facet Jessica T. Y. Yue
Mona A. Abraham
Paige V. Bauer
Mary P. LaPierre
Peili Wang
Frank A. Duca
Beatrice M. Filippi
Owen Chan
Tony K. T. Lam
author_sort Jessica T. Y. Yue
title Inhibition of glycine transporter-1 in the dorsal vagal complex improves metabolic homeostasis in diabetes and obesity
title_short Inhibition of glycine transporter-1 in the dorsal vagal complex improves metabolic homeostasis in diabetes and obesity
title_full Inhibition of glycine transporter-1 in the dorsal vagal complex improves metabolic homeostasis in diabetes and obesity
title_fullStr Inhibition of glycine transporter-1 in the dorsal vagal complex improves metabolic homeostasis in diabetes and obesity
title_full_unstemmed Inhibition of glycine transporter-1 in the dorsal vagal complex improves metabolic homeostasis in diabetes and obesity
title_sort inhibition of glycine transporter-1 in the dorsal vagal complex improves metabolic homeostasis in diabetes and obesity
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2016-11-01
description Glycine sensing in the dorsal vagal complex (DVC) regulates hepatic glucose production in rodents. Here the authors show that pharmacological and molecular inhibition of glycine reuptake in the DVC potentiates NMDA receptors, and improves metabolic homeostasis in animal models of obesity and diabetes.
url https://doi.org/10.1038/ncomms13501
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