Henrique J.N. Morgan , Heitor B.P. Delfino , Aline Z. Schavinski , Samuel A. Malone , Camille Charoy , Natany G. Reis , Ana P. Assis , Natalia Lautherbach , Wilian A. Silveira , Lilian C. Heck , Dan Guton , Ana I. Domingos , Isis C. Kettelhut , Marc Montminy , Luiz C.C. Navegantes
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Navegantes","doi":"10.1016/j.metabol.2024.155940","DOIUrl":null,"url":null,"abstract":"<div><h3>Background and aim</h3><p>Although it is well established that hormones like glucagon stimulates gluconeogenesis <em>via</em> the PKA-mediated phosphorylation of CREB and dephosphorylation of the cAMP-regulated CREB coactivators CRTC2, the role of neural signals in the regulation of gluconeogenesis remains uncertain.</p></div><div><h3>Methods and results</h3><p>Here, we characterize the noradrenergic bundle architecture in mouse liver; we show that the sympathoexcitation induced by acute cold exposure promotes hyperglycemia and upregulation of gluconeogenesis <em>via</em> triggering of the CREB/CRTC2 pathway. Following its induction by dephosphorylation, CRTC2 translocates to the nucleus and drives the transcription of key gluconeogenic genes. Rodents submitted to different models of sympathectomy or knockout of CRTC2 do not activate gluconeogenesis in response to cold. Norepinephrine directly acts in hepatocytes mainly through a Ca<sup>2+</sup>-dependent pathway that stimulates CREB/CRTC2, leading to activation of the gluconeogenic program.</p></div><div><h3>Conclusion</h3><p>Our data demonstrate the importance of the CREB/CRTC2 pathway in mediating effects of hepatic sympathetic inputs on glucose homeostasis, providing new insights into the role of norepinephrine in health and disease.</p></div>","PeriodicalId":18694,"journal":{"name":"Metabolism: clinical and experimental","volume":"157 ","pages":"Article 155940"},"PeriodicalIF":10.8000,"publicationDate":"2024-06-14","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S0026049524001677/pdfft?md5=6c1ed4a0e78f64e999d79245a6b4e2d5&pid=1-s2.0-S0026049524001677-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Hepatic noradrenergic innervation acts via CREB/CRTC2 to activate gluconeogenesis during cold\",\"authors\":\"Henrique J.N. 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Hepatic noradrenergic innervation acts via CREB/CRTC2 to activate gluconeogenesis during cold
Background and aim
Although it is well established that hormones like glucagon stimulates gluconeogenesis via the PKA-mediated phosphorylation of CREB and dephosphorylation of the cAMP-regulated CREB coactivators CRTC2, the role of neural signals in the regulation of gluconeogenesis remains uncertain.
Methods and results
Here, we characterize the noradrenergic bundle architecture in mouse liver; we show that the sympathoexcitation induced by acute cold exposure promotes hyperglycemia and upregulation of gluconeogenesis via triggering of the CREB/CRTC2 pathway. Following its induction by dephosphorylation, CRTC2 translocates to the nucleus and drives the transcription of key gluconeogenic genes. Rodents submitted to different models of sympathectomy or knockout of CRTC2 do not activate gluconeogenesis in response to cold. Norepinephrine directly acts in hepatocytes mainly through a Ca2+-dependent pathway that stimulates CREB/CRTC2, leading to activation of the gluconeogenic program.
Conclusion
Our data demonstrate the importance of the CREB/CRTC2 pathway in mediating effects of hepatic sympathetic inputs on glucose homeostasis, providing new insights into the role of norepinephrine in health and disease.
期刊介绍:
Metabolism upholds research excellence by disseminating high-quality original research, reviews, editorials, and commentaries covering all facets of human metabolism.
Consideration for publication in Metabolism extends to studies in humans, animal, and cellular models, with a particular emphasis on work demonstrating strong translational potential.
The journal addresses a range of topics, including:
- Energy Expenditure and Obesity
- Metabolic Syndrome, Prediabetes, and Diabetes
- Nutrition, Exercise, and the Environment
- Genetics and Genomics, Proteomics, and Metabolomics
- Carbohydrate, Lipid, and Protein Metabolism
- Endocrinology and Hypertension
- Mineral and Bone Metabolism
- Cardiovascular Diseases and Malignancies
- Inflammation in metabolism and immunometabolism
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