Highlights d NTS Calcr mediates food intake suppression but not aversive responses to sCT d Activating NTS Calcr neurons non-aversively suppresses feeding d These neurons act via non-CGRP PBN neurons d These neurons control long-term energy balance, not just short-term feeding
Leptin acts via its receptor (LepRb) to modulate gene expression in hypothalamic LepRb-expressing neurons, thereby controlling energy balance and glucose homeostasis. Despite the importance of the control of gene expression in hypothalamic LepRb neurons for leptin action, the transcriptional targets of LepRb signaling have remained undefined because LepRb cells contribute a small fraction to the aggregate transcriptome of the brain regions in which they reside. We thus employed translating ribosome affinity purification followed by RNA sequencing to isolate and analyze mRNA from the hypothalamic LepRb neurons of wild-type or leptin-deficient ( mice treated with vehicle or exogenous leptin. Although the expression of most of the genes encoding the neuropeptides commonly considered to represent the main targets of leptin action were altered only following chronic leptin deprivation, our analysis revealed other transcripts that were coordinately regulated by leptin under multiple treatment conditions. Among these, acute leptin treatment increased expression of the transcription factor in LepRb neurons. Furthermore, ablation of from LepRb neurons (Atf3KO mice) decreased leptin efficacy and promoted positive energy balance in mice. Thus, this analysis revealed the gene targets of leptin action, including , which represents a cellular mediator of leptin action.
Severe adverse life events during pregnancy may increase the risk of anxiety disorders in the offspring. Glutamate receptors are neurobiological targets in anxiety disorders. In this study, we investigated the effects of prenatal chronic mild stress (PCMS) on anxiety-like behavior by using elevated plus maze (EPM), and evaluated the effects of PCMS and/or anxiogenic challenge on glutamate receptors in different brain regions. Our results showed that PCMS increased anxiety-like behavior in both male and female offspring. Moreover, compared with the male naïve rats, male EPM rats showed a significant reduction of mGluR2/3 in the prefrontal cortex, mGluR1 and mGluR2/3 in the hippocampus, and increments of mGluR5, NR1, NR2B and PSD95 in the amygdala. In contrast, compared with female naïve rats, female EPM rats showed decreased levels of mGluR5 in the hippocampus, and mGluR2/3 and mGluR5 in the prefrontal cortex, and increased levels of NR2B and PSD95 in the amygdala. Furthermore, PCMS seemed not to affect the baseline expression of glutamate receptors in adult offspring, but induced significant alterations of them triggered by anxiogenic challenge with a sex difference. These data strengthen the pathophysiological hypothesis that prenatal stress as a risk factor involves in the development of anxiety disorder in the offspring.
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