Estrogen receptor–α in medial amygdala neurons regulates body weight
Pingwen Xu, … , Qingchun Tong, Yong Xu
Pingwen Xu, … , Qingchun Tong, Yong Xu
Published June 22, 2015
Citation Information: J Clin Invest. 2015;125(7):2861-2876. https://doi.org/10.1172/JCI80941.
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Research Article Endocrinology Metabolism Neuroscience Article has an altmetric score of 7

Estrogen receptor–α in medial amygdala neurons regulates body weight

Abstract

Estrogen receptor–α (ERα) activity in the brain prevents obesity in both males and females. However, the ERα-expressing neural populations that regulate body weight remain to be fully elucidated. Here we showed that single-minded–1 (SIM1) neurons in the medial amygdala (MeA) express abundant levels of ERα. Specific deletion of the gene encoding ERα (Esr1) from SIM1 neurons, which are mostly within the MeA, caused hypoactivity and obesity in both male and female mice fed with regular chow, increased susceptibility to diet-induced obesity (DIO) in males but not in females, and blunted the body weight–lowering effects of a glucagon-like peptide-1–estrogen (GLP-1–estrogen) conjugate. Furthermore, selective adeno-associated virus-mediated deletion of Esr1 in the MeA of adult male mice produced a rapid body weight gain that was associated with remarkable reductions in physical activity but did not alter food intake. Conversely, overexpression of ERα in the MeA markedly reduced the severity of DIO in male mice. Finally, an ERα agonist depolarized MeA SIM1 neurons and increased their firing rate, and designer receptors exclusively activated by designer drug–mediated (DREADD-mediated) activation of these neurons increased physical activity in mice. Collectively, our results support a model where ERα signals activate MeA neurons to stimulate physical activity, which in turn prevents body weight gain.

Authors

Pingwen Xu, Xuehong Cao, Yanlin He, Liangru Zhu, Yongjie Yang, Kenji Saito, Chunmei Wang, Xiaofeng Yan, Antentor Othrell Hinton Jr., Fang Zou, Hongfang Ding, Yan Xia, Chunling Yan, Gang Shu, San-Pin Wu, Bin Yang, Yuxin Feng, Deborah J. Clegg, Richard DeMarchi, Sohaib A. Khan, Sophia Y. Tsai, Francesco J. DeMayo, Qi Wu, Qingchun Tong, Yong Xu

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Figure 9

Effects of a selective ERα agonist on neural activities of MeA SIM1 neurons.

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Effects of a selective ERα agonist on neural activities of MeA SIM1 neur...
(A and B) A recorded MeA SIM1 neuron, filled with the green Allex488 dye, in the brain slice from a Sim1-Cre Rosa26-tdTOMATO mouse was indicated by the arrowhead. 3V, 3rd ventricle; ME, median eminence; opt, optical tract. (CF) Representative responses to PPT (100 nM, 50 ms puff) in the absence (C and E) or the presence of 1 μM TTX (D and F) on MeA SIM1 neurons from control mice (C and D) or from SIM1-ERα-KO mice (E and F). (G and H) The percentage of neurons that were depolarized by PPT puff in the absence (G) or the presence (H) of 1 μM TTX. ***P < 0.001 in χ2 test. (I) PPT-induced depolarization. Data are presented as mean ± SEM. n = 6–33. *P < 0.05 in 2-way ANOVA analysis followed by post hoc Bonferroni tests. (J) PPT-induced increases in firing rate. Data are presented as mean ± SEM. n = 8–9. *P < 0.05 in Wilcoxon signed rank test. (K) Representative membrane voltage responses to series depolarizing steps (from –160 pA to 0 pA in steps of 20 pA) for 1 second before and after PPT treatment. (L) Current-voltage curves before and after PPT treatment. Input resistance (IP) was determined by the slope of a linear regression fitted line of current-voltage curve. Results are shown as mean ± SEM.