Glucagon-Like Peptide-1 Inhibits the Progression of Abdominal Aortic Aneurysm in Mice: The Earlier, the Better. | Glucagon-Like Peptide-1 Inhibits the Progression of Abdominal Aortic Aneurysm in Mice: The Earlier, the Better. Zhao X, Cheng Z, Zhang H, Guo Y, Zhao L, Zhang C, Ye P, Zhang K, Ma X, Wu Q. | 10/8/2024 |
A neuronal circuit driven by GLP-1 in the olfactory bulb regulates insulin secretion. | A neuronal circuit driven by GLP-1 in the olfactory bulb regulates insulin secretion. Montaner M, Denom J, Simon V, Jiang W, Holt MK, Brierley DI, Rouch C, Foppen E, Kassis N, Jarriault D, Khan D, Eygret L, Mifsud F, Hodson DJ, Broichhagen J, Van Oudenhove L, Fioramonti X, Gault V, Cota D, Reimann F, Gribble FM, Migrenne-Li S, Trapp S, Gurden H, Magnan C., Free PMC Article | 09/20/2024 |
Topography of the GLP-1/GLP-1 receptor system in the spinal cord of male mice. | Topography of the GLP-1/GLP-1 receptor system in the spinal cord of male mice. Ruska Y, Csibi A, Dorogházi B, Szilvásy-Szabó A, Mohácsik P, Környei Z, Dénes Á, Kádár A, Puskár Z, Hrabovszky E, Gereben B, Wittmann G, Fekete C., Free PMC Article | 07/11/2024 |
GLP-1 modulated the firing activity of nigral dopaminergic neurons in both normal and parkinsonian mice. | GLP-1 modulated the firing activity of nigral dopaminergic neurons in both normal and parkinsonian mice. Liu C, Liu WH, Yang W, Chen L, Xue Y, Chen XY. | 05/23/2024 |
The crucial relationship between miRNA-27 and CSE/H2S, and the mechanism of action of GLP-1 in myocardial hypertrophy. | The crucial relationship between miRNA-27 and CSE/H(2)S, and the mechanism of action of GLP-1 in myocardial hypertrophy. Gao S, Li Y, Liu MM, Xiong X, Cui CP, Huo QJ, Li KX, Sun X, Zhang R, Wu D, Li BY., Free PMC Article | 04/18/2024 |
Identification of glucagon like peptide-1 (GLP-1) in mice stomach. | Identification of glucagon like peptide-1 (GLP-1) in mice stomach. Otsuka M, Huang J, Tanaka T, Sakata I. | 03/29/2024 |
Renal tubule-specific Atgl deletion links kidney lipid metabolism to glucagon-like peptide 1 and insulin secretion independent of renal inflammation or lipotoxicity. | Renal tubule-specific Atgl deletion links kidney lipid metabolism to glucagon-like peptide 1 and insulin secretion independent of renal inflammation or lipotoxicity. Fernandes MF, Aristizabal-Henao JJ, Marvyn PM, M'Hiri I, Wiens MA, Hoang M, Sebastian M, Nachbar R, St-Pierre P, Diaguarachchige De Silva K, Wood GA, Joseph JW, Doucette CA, Marette A, Stark KD, Duncan RE., Free PMC Article | 03/11/2024 |
The local GLP-1 system in the olfactory bulb is required for odor-evoked cephalic phase of insulin release in mice. | The local GLP-1 system in the olfactory bulb is required for odor-evoked cephalic phase of insulin release in mice. Montaner M, Denom J, Jiang W, Magnan C, Trapp S, Gurden H., Free PMC Article | 07/3/2023 |
Glucagon-Like Peptide-1 Is Involved in the Thermic Effects of Dietary Proteins in Male Rodents. | Glucagon-Like Peptide-1 Is Involved in the Thermic Effects of Dietary Proteins in Male Rodents. Ochiai K, Muto A, Seok BS, Doi Y, Iwasaki Y, Okamatsu-Ogura Y, Drucker DJ, Hira T. | 05/30/2023 |
Upregulated TGF-beta1 contributes to hyperglycaemia in type 2 diabetes by potentiating glucagon signalling. | Upregulated TGF-β1 contributes to hyperglycaemia in type 2 diabetes by potentiating glucagon signalling. Xiao Y, Wang Y, Ryu J, Liu W, Zou H, Zhang R, Yan Y, Dai Z, Zhang D, Sun LZ, Liu F, Zhou Z, Dong LQ. | 05/23/2023 |
GLP-1 attenuates intestinal fat absorption and chylomicron production via vagal afferent nerves originating in the portal vein. | GLP-1 attenuates intestinal fat absorption and chylomicron production via vagal afferent nerves originating in the portal vein. Hoffman S, Alvares D, Adeli K., Free PMC Article | 10/15/2022 |
An inter-organ neural circuit for appetite suppression. | An inter-organ neural circuit for appetite suppression. Zhang T, Perkins MH, Chang H, Han W, de Araujo IE., Free PMC Article | 08/20/2022 |
Disrupted and Elevated Circadian Secretion of Glucagon-Like Peptide-1 in a Murine Model of Type 2 Diabetes. | Disrupted and Elevated Circadian Secretion of Glucagon-Like Peptide-1 in a Murine Model of Type 2 Diabetes. Biancolin AD, Jeong H, Mak KWY, Yuan Z, Brubaker PL., Free PMC Article | 08/20/2022 |
GLP-1 regulates exercise endurance and skeletal muscle remodeling via GLP-1R/AMPK pathway. | GLP-1 regulates exercise endurance and skeletal muscle remodeling via GLP-1R/AMPK pathway. Wu L, Zhou M, Li T, Dong N, Yi L, Zhang Q, Mi M. | 06/25/2022 |
Targeting cellular senescence prevents glucocorticoid-induced bone loss through modulation of the DPP4-GLP-1 axis. | Targeting cellular senescence prevents glucocorticoid-induced bone loss through modulation of the DPP4-GLP-1 axis. Wang T, Yang L, Liang Z, Wang L, Su F, Wang X, You X, He C., Free PMC Article | 03/26/2022 |
Identification of a regulatory pathway of L-phenylalanine-induced GLP-1 secretion in the enteroendocrine L cells. | Identification of a regulatory pathway of L-phenylalanine-induced GLP-1 secretion in the enteroendocrine L cells. Osuga Y, Harada K, Tsuboi T. | 02/12/2022 |
Activation of ectopic olfactory receptor 544 induces GLP-1 secretion and regulates gut inflammation. | Activation of ectopic olfactory receptor 544 induces GLP-1 secretion and regulates gut inflammation. Wu C, Jeong MY, Kim JY, Lee G, Kim JS, Cheong YE, Kang H, Cho CH, Kim J, Park MK, Shin YK, Kim KH, Seol GH, Koo SH, Ko G, Lee SJ., Free PMC Article | 01/29/2022 |
The glucagon-like peptide-1 (GLP-1) analog exenatide ameliorates intrauterine adhesions in mice. | The glucagon-like peptide-1 (GLP-1) analog exenatide ameliorates intrauterine adhesions in mice. Ma XL, Ding Y, Wu LM, Wang YX, Yao Y, Wang YX, Zhang YG, Niu JQ, He XX, Wang YQ. | 01/1/2022 |
MicroRNA-194: a novel regulator of glucagon-like peptide-1 synthesis in intestinal L cells. | MicroRNA-194: a novel regulator of glucagon-like peptide-1 synthesis in intestinal L cells. Wang J, Zhao D, Ding CZ, Guo F, Wu LN, Huang FJ, Liu YL, Zhao SY, Xin Y, Ma SN, Ji HF, Wang X, Wei LR., Free PMC Article | 10/9/2021 |
Storage and Utilization of Glycogen by Mouse Liver during Adaptation to Nutritional Changes Are GLP-1 and PASK Dependent. | Storage and Utilization of Glycogen by Mouse Liver during Adaptation to Nutritional Changes Are GLP-1 and PASK Dependent. Pérez-García A, Hurtado-Carneiro V, Herrero-De-Dios C, Dongil P, García-Mauriño JE, Sánchez MD, Sanz C, Álvarez E., Free PMC Article | 09/18/2021 |
Pancreatic beta Cells Inhibit Glucagon Secretion from alpha Cells: An In Vitro Demonstration of alpha-beta Cell Interaction. | Pancreatic β Cells Inhibit Glucagon Secretion from α Cells: An In Vitro Demonstration of α-β Cell Interaction. Gu W, Anker CCB, Christiansen CB, Moede T, Berggren PO, Hermansen K, Gregersen S, Jeppesen PB., Free PMC Article | 07/31/2021 |
PPG neurons in the nucleus of the solitary tract modulate heart rate but do not mediate GLP-1 receptor agonist-induced tachycardia in mice. | PPG neurons in the nucleus of the solitary tract modulate heart rate but do not mediate GLP-1 receptor agonist-induced tachycardia in mice. Holt MK, Cook DR, Brierley DI, Richards JE, Reimann F, Gourine AV, Marina N, Trapp S., Free PMC Article | 07/10/2021 |
Intestine-selective reduction of Gcg expression reveals the importance of the distal gut for GLP-1 secretion. | Intestine-selective reduction of Gcg expression reveals the importance of the distal gut for GLP-1 secretion. Panaro BL, Yusta B, Matthews D, Koehler JA, Song Y, Sandoval DA, Drucker DJ., Free PMC Article | 07/10/2021 |
Leptin receptor-expressing nucleus tractus solitarius neurons suppress food intake independently of GLP1 in mice. | Leptin receptor-expressing nucleus tractus solitarius neurons suppress food intake independently of GLP1 in mice. Cheng W, Ndoka E, Hutch C, Roelofs K, MacKinnon A, Khoury B, Magrisso J, Kim KS, Rhodes CJ, Olson DP, Seeley RJ, Sandoval D, Myers MG Jr., Free PMC Article | 05/22/2021 |
Leptin suppresses development of GLP-1 inputs to the paraventricular nucleus of the hypothalamus. | Leptin suppresses development of GLP-1 inputs to the paraventricular nucleus of the hypothalamus. Biddinger JE, Lazarenko RM, Scott MM, Simerly R., Free PMC Article | 04/3/2021 |