Appetite Accomplice: Ghrelin Receptor Alters Dopamine Signaling
Main Category: Obesity / Weight Loss / FitnessAlso Included In: Endocrinology; Psychology / Psychiatry
Article Date: 26 Jan 2012 - 1:00 PST
email to a friend 
printer friendly 
opinions
| Patient / Public: |  |
|
| Healthcare Prof: |  |
5 (1 votes) |
New research reveals a fascinating and unexpected molecular partnership within the brain neurons that regulate appetite. The study, published by Cell Press in the January 26 issue of the journal Neuron, resolves a paradox regarding a receptor without its hormone and may lead to more specific therapeutic interventions for obesity and disorders of dopamine signaling.
Ghrelin is an appetite-stimulating hormone produced by the stomach. Although the ghrelin receptor (GHSR1a) is broadly distributed in the brain, ghrelin itself is nearly undetectable there. This intriguing paradox was investigated by Dr. Roy G. Smith, Dr. Andras Kern, and colleagues from The Scripps Research Institute in Florida. "We identified subsets of neurons in the brain that express both GHSR1a and the dopamine receptor subtype-2 (DRD2)," explains Dr. Smith. "Dopamine signaling in the hypothalamus is linked with feeding behavior, and mutations in DRD2 that attenuate dopamine signaling are associated with obesity in humans. We speculated that expression of both receptors in the same neurons might lead to interactions between GHSR1a and DRD2 that modify dopamine signaling."
The researchers showed that when GHSR1a and DRD2 were coexpressed, the receptors physically interacted with one another. Further, the GHSR1a:DRD2 complex was present in native hypothalamic neurons that regulate appetite. When mice were treated with a molecule (cabergoline) that selectively activates DRD2, they exhibited anorexia. Interestingly, the cabergoline-stimulated anorexia did not require ghrelin but was dependent on GHSR1a and the GHSR1a:DRD2 interaction. These findings suggest that in neurons expressing both GHSR1a and DRD2, GHSR1a alters classical DRD2 dopamine signaling.
"Perhaps most importantly, we showed that a GHSR1a-selective antagonist blocks dopamine signaling in neurons with both DRD2 and GHSR1a, which allows neuronal selective fine-tuning of dopamine signaling because neurons expressing DRD2 alone will be unaffected," concludes Dr. Smith. "This provides exciting opportunities for designing next-generation therapeutics with fewer side effects for both obesity and psychiatric disorders associated with abnormal dopamine signaling."
Visit our obesity / weight loss / fitness section for the latest news on this subject.
MLA
23 Feb. 2012. <http://www.medicalnewstoday.com/releases/240766.php>
APA
http://www.medicalnewstoday.com/releases/240766.php.
Please note: If no author information is provided, the source is cited instead.
|
Rate this article: (Hover over the stars then click to rate) |
Patient / Public: |
or |
Health Professional: |
Add Your Opinion
Please note that we publish your name, but we do not publish your email address. It is only used to let you know when your message is published. We do not use it for any other purpose. Please see our privacy policy for more information.
If you write about specific medications or operations, please do not name health care professionals by name.
All opinions are moderated before being included (to stop spam)
Contact Our News Editors
For any corrections of factual information, or to contact the editors please use our feedback form.
Please send any medical news or health news press releases to:
Note: Any medical information published on this website is not intended as a substitute for informed medical advice and you should not take any action before consulting with a health care professional. For more information, please read our terms and conditions.
Privacy Policy |
Terms and Conditions
MediLexicon International Ltd
Bexhill-on-Sea, United Kingdom
MediLexicon International Ltd © 2004-2012 All rights reserved.
