Relation of addiction genes to hypothalamic gene changes subserving genesis and gratification of a classic instinct, sodium appetite.

Bibliographic Collection: 
CARTA-Inspired Publication
Publication Type: Journal Article
Authors: Liedtke, WB; McKinley, MJ; Walker, LL; Zhang, H; Pfenning, AR; Drago, J; Hochendoner, SJ; Hilton, DL; Lawrence, AJ; Denton, DA
Year of Publication: 2011
Journal: Proc Natl Acad Sci U S A
Volume: 108
Number: 30
Pagination: 12509-14
Date Published: Jul 26
Publisher: United States
Publication Language: eng
Accession Number: 21746918
Keywords: &, Addictive/*genetics/physiopathology, Adrenocorticotropic Hormone/administration, Animals, Appetite/drug effects/*genetics/physiology, Behavior, Biological Evolution, dosage/physiology, Drinking/drug effects/genetics/physiology, Female, Genome-Wide As
Abstract:

Sodium appetite is an instinct that involves avid specific intention. It is elicited by sodium deficiency, stress-evoked adrenocorticotropic hormone (ACTH), and reproduction. Genome-wide microarrays in sodium-deficient mice or after ACTH infusion showed up-regulation of hypothalamic genes, including dopamine- and cAMP-regulated neuronal phosphoprotein 32 kDa (DARPP-32), dopamine receptors-1 and -2, alpha-2C- adrenoceptor, and striatally enriched protein tyrosine phosphatase (STEP). Both DARPP-32 and neural plasticity regulator activity-regulated cytoskeleton associated protein (ARC) were up-regulated in lateral hypothalamic orexinergic neurons by sodium deficiency. Administration of dopamine D1 (SCH23390) and D2 receptor (raclopride) antagonists reduced gratification of sodium appetite triggered by sodium deficiency. SCH23390 was specific, having no effect on osmotic-induced water drinking, whereas raclopride also reduced water intake. D1 receptor KO mice had normal sodium appetite, indicating compensatory regulation. Appetite was insensitive to SCH23390, confirming the absence of off-target effects. Bilateral microinjection of SCH23390 (100 nM in 200 nL) into rats' lateral hypothalamus greatly reduced sodium appetite. Gene set enrichment analysis in hypothalami of mice with sodium appetite showed significant enrichment of gene sets previously linked to addiction (opiates and cocaine). This finding of concerted gene regulation was attenuated on gratification with perplexingly rapid kinetics of only 10 min, anteceding significant absorption of salt from the gut. Salt appetite and hedonic liking of salt taste have evolved over >100 million y (e.g., being present in Metatheria). Drugs causing pleasure and addiction are comparatively recent and likely reflect usurping of evolutionary ancient systems with high survival value by the gratification of contemporary hedonic indulgences. Our findings outline a molecular logic for instinctive behavior encoded by the brain with possible important translational-medical implications.

Notes:

IN - Kidney Int. 2011 Oct;80(8):791. PMID: 21960166Proc Natl Acad Sci U S A. 2011 Jul 26;108(30):12509-14. doi: 10.1073/pnas.1109199108. Epub 2011 Jul 11.

Author Address:

Department of Medicine, Duke University, Durham, NC 27710, USA. wolfgang@neuro.duke.edu

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