Abstract

Two distinct populations of peptidergic (POMC and NPY/AgRP) neurons in the arcuate nucleus of the hypothalamus respond to metabolic cues such as leptin. Another critical metabolic hormone, ghrelin, has been identified to regulate food intake and body weight. Evidence suggests that CNS neuronal groups are targets of ghrelin. This includes NPY/AgRP neurons in the arcuate nucleus. This project will employ state of the art functional neuroanatomical techniques including tract tracing, ghrelin induced gene expression using in situ hybridization histochemistry, and chemical identification of neuronal phenotypes (alone and in combination) to identify the anatomical projections of ghrelin-responsive neurons. We will determine to what degree populations of ghrelin responsive neurons in the arcuate and retrochiasmatic neurons expressing NPY/AGRP and POMC/CART project to sites including spinal cord, dorsal motor nucleus of the vagus, the lateral hypothalamic area and the paraventricular nucleus, which are likely to play a distinct role in activating the efferent pathways activated by ghrelin. We will directly test the hypothesis that ghrelin receptor expression only in neurons in the arcuate nucleus, ventromedial hypothalamic nucleus, and the dorsal vagal complex is sufficient to mediate the effects of ghrelin to increase food intake and decrease energy expenditure. To accomplish this we will use a novel mouse model that is null for ghrelin receptor expression. The mouse is made such that the action of Crerecombinase will reactivate ghrelin receptor expression. We will cross our mice to AgRP-Cre and SF-1-Cre mice, which will result in mice with ghrelin receptor expression only in the arcuate and ventromedial nuclei. We will also inject the dorsal vagal complex with adeno-associated viral vectors to deliver Cre-recombinase to the dorsal vagal complex. In all mice, we will assess the responses to acute ghrelin administration and sensitivity to diet induced obesity in wild type, null, and reactivated mice. These studies will substantially expand our knowledge of the neural circuits engaged by ghrelin. ? ?

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
1R01DK071320-01
Application #
6929485
Study Section
Special Emphasis Panel (ZRG1-EMNR-D (03))
Program Officer
Sato, Sheryl M
Project Start
2005-03-01
Project End
2006-01-31
Budget Start
2005-03-01
Budget End
2006-01-31
Support Year
1
Fiscal Year
2005
Total Cost
$340,000
Indirect Cost

  Institution

Name
Beth Israel Deaconess Medical Center
Department
Type
DUNS #
071723621
City
Boston
State
MA
Country
United States
Zip Code
02215

  Publications

Wang, Qian; Liu, Chen; Uchida, Aki et al. (2014) Arcuate AgRP neurons mediate orexigenic and glucoregulatory actions of ghrelin. Mol Metab 3:64-72
Gautron, L; Cravo, R M; Elmquist, J K et al. (2013) Discrete melanocortin-sensitive neuroanatomical pathway linking the ventral premmamillary nucleus to the paraventricular hypothalamus. Neuroscience 240:70-82
Smith, Jeremy T; Reichenbach, Alex; Lemus, Moyra et al. (2013) An eGFP-expressing subpopulation of growth hormone secretagogue receptor cells are distinct from kisspeptin, tyrosine hydroxylase, and RFamide-related peptide neurons in mice. Peptides 47:45-53
Williams, Kevin W; Elmquist, Joel K (2012) From neuroanatomy to behavior: central integration of peripheral signals regulating feeding behavior. Nat Neurosci 15:1350-5
Perello, Mario; Scott, Michael M; Sakata, Ichiro et al. (2012) Functional implications of limited leptin receptor and ghrelin receptor coexpression in the brain. J Comp Neurol 520:281-94
Scott, Michael M; Perello, Mario; Chuang, Jen-Chieh et al. (2012) Hindbrain ghrelin receptor signaling is sufficient to maintain fasting glucose. PLoS One 7:e44089
Williams, Kevin W; Scott, Michael M; Elmquist, Joel K (2011) Modulation of the central melanocortin system by leptin, insulin, and serotonin: co-ordinated actions in a dispersed neuronal network. Eur J Pharmacol 660:2-12
Rossi, Jari; Balthasar, Nina; Olson, David et al. (2011) Melanocortin-4 receptors expressed by cholinergic neurons regulate energy balance and glucose homeostasis. Cell Metab 13:195-204
Xu, Yong; Elmquist, Joel K; Fukuda, Makoto (2011) Central nervous control of energy and glucose balance: focus on the central melanocortin system. Ann N Y Acad Sci 1243:1-14
Xu, Yong; Nedungadi, Thekkethil P; Zhu, Liangru et al. (2011) Distinct hypothalamic neurons mediate estrogenic effects on energy homeostasis and reproduction. Cell Metab 14:453-65

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