TY - JOUR
T1 - Brain site-specific regulation of hedonic intake by orexin and DYN peptides
T2 - role of the PVN and obesity
AU - Mattar, P.
AU - Uribe-Cerda, S.
AU - Pezoa, C.
AU - Guarnieri, T.
AU - Kotz, C. M.
AU - Teske, J. A.
AU - Morselli, E.
AU - Perez-Leighton, C.
N1 - Funding Information:
This work was supported by the CONICYT FONDECYT Regular Grants 1152075 and 1200578 to C.P.L. and CONICYT FONDECYT Regular 1160820 to E.M.), National Institutes of Health (NS099468-01A1 to J.T.) and the United States Department of Agriculture (ARZT-1372540-R23-131 to J.T.), and by the CONICYT-FONDECYT Postdoctoral Fellowship 3190416 to P.M.
Publisher Copyright:
© 2020 Informa UK Limited, trading as Taylor & Francis Group.
PY - 2022
Y1 - 2022
N2 - The orexin peptides promote hedonic intake and other reward behaviors through different brain sites. The opioid dynorphin peptides are co-released with orexin peptides but block their effects on reward in the ventral tegmental area (VTA). We previously showed that in the paraventricular hypothalamic nucleus (PVN), dynorphin and not orexin peptides enhance hedonic intake, suggesting they have brain-site-specific effects. Obesity alters the expression of orexin and dynorphin receptors, but whether their expression across different brain sites is important to hedonic intake is unclear. We hypothesized that hedonic intake is regulated by orexin and dynorphin peptides in PVN and that hedonic intake in obesity correlates with expression of their receptors. Here we show that in mice, injection of DYN-A1–13 (an opioid dynorphin peptide) in the PVN enhanced hedonic intake, whereas in the VTA, injection of OXA (orexin-A, an orexin peptide) enhanced hedonic intake. In PVN, OXA blunted the increase in hedonic intake caused by DYN-A1–13. In PVN, injection of norBNI (opioid receptor antagonist) reduced hedonic intake but a subsequent OXA injection failed to increase hedonic intake, suggesting that OXA activity in PVN is not influenced by endogenous opioid activity. In the PVN, DYN-A1–13 increased the intake of the less-preferred food in a two-food choice task. In obese mice fed a cafeteria diet, orexin 1 receptor mRNA across brain sites involved in hedonic intake correlated with fat preference but not caloric intake. Together, these data support that orexin and dynorphin peptides regulate hedonic intake in an opposing manner with brain-site-specific effects.
AB - The orexin peptides promote hedonic intake and other reward behaviors through different brain sites. The opioid dynorphin peptides are co-released with orexin peptides but block their effects on reward in the ventral tegmental area (VTA). We previously showed that in the paraventricular hypothalamic nucleus (PVN), dynorphin and not orexin peptides enhance hedonic intake, suggesting they have brain-site-specific effects. Obesity alters the expression of orexin and dynorphin receptors, but whether their expression across different brain sites is important to hedonic intake is unclear. We hypothesized that hedonic intake is regulated by orexin and dynorphin peptides in PVN and that hedonic intake in obesity correlates with expression of their receptors. Here we show that in mice, injection of DYN-A1–13 (an opioid dynorphin peptide) in the PVN enhanced hedonic intake, whereas in the VTA, injection of OXA (orexin-A, an orexin peptide) enhanced hedonic intake. In PVN, OXA blunted the increase in hedonic intake caused by DYN-A1–13. In PVN, injection of norBNI (opioid receptor antagonist) reduced hedonic intake but a subsequent OXA injection failed to increase hedonic intake, suggesting that OXA activity in PVN is not influenced by endogenous opioid activity. In the PVN, DYN-A1–13 increased the intake of the less-preferred food in a two-food choice task. In obese mice fed a cafeteria diet, orexin 1 receptor mRNA across brain sites involved in hedonic intake correlated with fat preference but not caloric intake. Together, these data support that orexin and dynorphin peptides regulate hedonic intake in an opposing manner with brain-site-specific effects.
KW - CeA, central amygdala
KW - DH, dorsal hypothalamus
KW - DYN, dynorphin
KW - KOR, kappa opioid receptor
KW - LH, lateral hypothalamus
KW - NAc, nucleus accumbens
KW - OFC, orbitofrontal cortex
KW - OR, opioid receptor
KW - OX1R, orexin 1 receptor
KW - OX2R, orexin 2 receptor
KW - OXA, 1orexin-A
KW - Orexin
KW - PVN, paraventricular hypothalamic nucleus
KW - PVT, paraventricular thalamic nucleus
KW - VH, ventral hypothalamus
KW - VTA, ventral tegmental area
KW - cafeteria diet
KW - dynorphin
KW - fat
KW - feeding behavior
KW - food choice
KW - hedonic intake
KW - hypocretin
KW - hypothalamus
KW - norBNI, nor-binaltorphimine
KW - obesity
KW - opioid receptors
KW - orexin 1 receptor
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U2 - 10.1080/1028415X.2020.1840049
DO - 10.1080/1028415X.2020.1840049
M3 - Article
C2 - 33151127
AN - SCOPUS:85095839902
VL - 25
SP - 1105
EP - 1114
JO - Nutritional Neuroscience
JF - Nutritional Neuroscience
SN - 1028-415X
IS - 5
ER -