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Mice lacking β-arrestin-2 in melanocortin 4 receptor–expressing neurons show marked metabolic deficits
Misbah Rashid, Lei Wang, Zhenzhong Cui, Oksana Gavrilova, Huiyan Lu, Kozo Kaibuchi, Sarah Zeitlmayr, Thomas Gudermann, Andreas Breit, Jürgen Wess
Misbah Rashid, Lei Wang, Zhenzhong Cui, Oksana Gavrilova, Huiyan Lu, Kozo Kaibuchi, Sarah Zeitlmayr, Thomas Gudermann, Andreas Breit, Jürgen Wess
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Research Article Endocrinology Metabolism

Mice lacking β-arrestin-2 in melanocortin 4 receptor–expressing neurons show marked metabolic deficits

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Abstract

Hypothalamic melanocortin 4 receptors (MC4Rs) play a central role in regulating food intake and energy homeostasis. In fact, inactivating mutations in the MC4R gene are the most common form of monogenic obesity. Agonist activation of MC4Rs reduces food intake by modulating hypothalamic signaling circuits. Thus, a detailed understanding of the signaling pathways that regulate MC4R activity is of considerable translational relevance. Ligand-activated MC4Rs not only interact with heterotrimeric G proteins but also can recruit β-arrestin-2 (barr2) to the receptor. The potential functional role of barr2 in regulating the anorectic effects of MC4R signaling remains unexplored. In the present study, we used mutant mouse models to demonstrate MC4R-mediated activation of barr2/ERK signaling in MC4R neurons of the paraventricular nucleus leads to reduced food intake. We also found the appetite-suppressing effect of setmelanotide, an MC4R agonist FDA approved for the treatment of certain types of obesity, requires the presence of barr2 in MC4R-containing neurons. These data suggest that MC4R agonists able to promote MC4R/barr2 interactions with high efficacy may become useful as appetite-suppressing drugs.

Authors

Misbah Rashid, Lei Wang, Zhenzhong Cui, Oksana Gavrilova, Huiyan Lu, Kozo Kaibuchi, Sarah Zeitlmayr, Thomas Gudermann, Andreas Breit, Jürgen Wess

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Figure 7

MTII-stimulated cFos expression in MC4R-expressing neurons of the PVN.

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MTII-stimulated cFos expression in MC4R-expressing neurons of the PVN.
T...
The expression of cFos in MC4R-expressing neurons of the PVN was studied via immunostaining using hypothalamic slices prepared from MC4R-Cre (control), MC4R-barr2-KO, and MC4R-Mek1dn mice. Mice were bilaterally injected into the PVN with AAV-DIO-mCherry (MC4R-Cre and MC4R-barr2-KO mice) or AAV8:FLEX-MEK1dn-P2A-mCherry (MC4R-Mek1dn mice) to label MC4R-expressing neurons. After a 3-hour fast, animals received an i.p. injection of either vehicle (saline) or MTII (10 mg/kg). Brains were collected 1 hour later. The PVN region is outlined with stippled lines. (A and B) Immunostaining for cFos in MC4R-expressing neurons of the PVN of mice injected with either vehicle (A) or MTII (B). Scale bar: 100 μm. (C) Quantification of cFos expression data. cFos+ cells represent neurons coexpressing mCherry, a marker for MC4R+ neurons. Six hypothalamic slices prepared from 3 or 4 different mice per strain were analyzed. Data are presented as mean ± SEM. *P < 0.05, ****P < 0.0001 (2-way ANOVA followed by Šidák’s multiple-comparison test). PVN, paraventricular nucleus.

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