Cargando…
A Brain-Melanocortin-Vagus Axis Mediates Adipose Tissue Expansion Independently of Energy Intake
The melanocortin system is a brain circuit that influences energy balance by regulating energy intake and expenditure. In addition, the brain-melanocortin system controls adipose tissue metabolism to optimize fuel mobilization and storage. Specifically, increased brain-melanocortin signaling or nega...
| Autores principales: | , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
2019
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6550338/ https://www.ncbi.nlm.nih.gov/pubmed/31116984 http://dx.doi.org/10.1016/j.celrep.2019.04.089 |
| _version_ | 1783424169236496384 |
|---|---|
| author | Holland, Jenna Sorrell, Joyce Yates, Emily Smith, Kathleen Arbabi, Shahriar Arnold, Myrtha Rivir, Marita Morano, Rachel Chen, Jenny Zhang, Xiang Dimarchi, Richard Woods, Stephen C. Sanchez-Gurmaches, Joan Wohleb, Eric Perez-Tilve, Diego |
| author_facet | Holland, Jenna Sorrell, Joyce Yates, Emily Smith, Kathleen Arbabi, Shahriar Arnold, Myrtha Rivir, Marita Morano, Rachel Chen, Jenny Zhang, Xiang Dimarchi, Richard Woods, Stephen C. Sanchez-Gurmaches, Joan Wohleb, Eric Perez-Tilve, Diego |
| author_sort | Holland, Jenna |
| collection | PubMed |
| description | The melanocortin system is a brain circuit that influences energy balance by regulating energy intake and expenditure. In addition, the brain-melanocortin system controls adipose tissue metabolism to optimize fuel mobilization and storage. Specifically, increased brain-melanocortin signaling or negative energy balance promotes lipid mobilization by increasing sympathetic nervous system input to adipose tissue. In contrast, calorie-independent mechanisms favoring energy storage are less understood. Here, we demonstrate that reduction of brain-melanocortin signaling actively promotes fat mass gain by activating the lipogenic program and adipocyte and endothelial cell proliferation in white fat depots independently of caloric intake via efferent nerve fibers conveyed by the common hepatic branch of the vagus nerve. Those vagally regulated obesogenic signals also contribute to the fat mass gain following chronic high-fat diet feeding. These data reveal a physiological mechanism whereby the brain controls energy stores that may contribute to increased susceptibility to obesity. |
| format | Online Article Text |
| id | pubmed-6550338 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2019 |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-65503382019-06-05 A Brain-Melanocortin-Vagus Axis Mediates Adipose Tissue Expansion Independently of Energy Intake Holland, Jenna Sorrell, Joyce Yates, Emily Smith, Kathleen Arbabi, Shahriar Arnold, Myrtha Rivir, Marita Morano, Rachel Chen, Jenny Zhang, Xiang Dimarchi, Richard Woods, Stephen C. Sanchez-Gurmaches, Joan Wohleb, Eric Perez-Tilve, Diego Cell Rep Article The melanocortin system is a brain circuit that influences energy balance by regulating energy intake and expenditure. In addition, the brain-melanocortin system controls adipose tissue metabolism to optimize fuel mobilization and storage. Specifically, increased brain-melanocortin signaling or negative energy balance promotes lipid mobilization by increasing sympathetic nervous system input to adipose tissue. In contrast, calorie-independent mechanisms favoring energy storage are less understood. Here, we demonstrate that reduction of brain-melanocortin signaling actively promotes fat mass gain by activating the lipogenic program and adipocyte and endothelial cell proliferation in white fat depots independently of caloric intake via efferent nerve fibers conveyed by the common hepatic branch of the vagus nerve. Those vagally regulated obesogenic signals also contribute to the fat mass gain following chronic high-fat diet feeding. These data reveal a physiological mechanism whereby the brain controls energy stores that may contribute to increased susceptibility to obesity. 2019-05-21 /pmc/articles/PMC6550338/ /pubmed/31116984 http://dx.doi.org/10.1016/j.celrep.2019.04.089 Text en This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). |
| spellingShingle | Article Holland, Jenna Sorrell, Joyce Yates, Emily Smith, Kathleen Arbabi, Shahriar Arnold, Myrtha Rivir, Marita Morano, Rachel Chen, Jenny Zhang, Xiang Dimarchi, Richard Woods, Stephen C. Sanchez-Gurmaches, Joan Wohleb, Eric Perez-Tilve, Diego A Brain-Melanocortin-Vagus Axis Mediates Adipose Tissue Expansion Independently of Energy Intake |
| title | A Brain-Melanocortin-Vagus Axis Mediates Adipose Tissue Expansion Independently of Energy Intake |
| title_full | A Brain-Melanocortin-Vagus Axis Mediates Adipose Tissue Expansion Independently of Energy Intake |
| title_fullStr | A Brain-Melanocortin-Vagus Axis Mediates Adipose Tissue Expansion Independently of Energy Intake |
| title_full_unstemmed | A Brain-Melanocortin-Vagus Axis Mediates Adipose Tissue Expansion Independently of Energy Intake |
| title_short | A Brain-Melanocortin-Vagus Axis Mediates Adipose Tissue Expansion Independently of Energy Intake |
| title_sort | brain-melanocortin-vagus axis mediates adipose tissue expansion independently of energy intake |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6550338/ https://www.ncbi.nlm.nih.gov/pubmed/31116984 http://dx.doi.org/10.1016/j.celrep.2019.04.089 |
| work_keys_str_mv | AT hollandjenna abrainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT sorrelljoyce abrainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT yatesemily abrainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT smithkathleen abrainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT arbabishahriar abrainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT arnoldmyrtha abrainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT rivirmarita abrainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT moranorachel abrainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT chenjenny abrainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT zhangxiang abrainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT dimarchirichard abrainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT woodsstephenc abrainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT sanchezgurmachesjoan abrainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT wohleberic abrainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT pereztilvediego abrainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT hollandjenna brainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT sorrelljoyce brainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT yatesemily brainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT smithkathleen brainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT arbabishahriar brainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT arnoldmyrtha brainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT rivirmarita brainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT moranorachel brainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT chenjenny brainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT zhangxiang brainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT dimarchirichard brainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT woodsstephenc brainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT sanchezgurmachesjoan brainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT wohleberic brainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake AT pereztilvediego brainmelanocortinvagusaxismediatesadiposetissueexpansionindependentlyofenergyintake |