Pharmacological targeting of glutamatergic neurons within the brainstem for weight reduction

Schneeberger, Marc; Brice, Nicola; Pellegrino, Kyle; Parolari, Luca; Shaked, Jordan T; Page, Kyle S.; Marchildon, François; Barrows, Douglas; Carroll, Thomas; Tolpiko, Thomas; Mulligan, Victoria M; Newman, Robert J.; Doyle, Kevin; Bürli, Roland W.; Barker, Daniel F; Glen, Angela; Ortuño, María José; Nectow, Alexander R.; Renier, Nicolas; Cohen, Paul; Carlton, Mark; Friedman, Jeffrey M.

doi:10.1038/s42255-022-00677-8

Cited by 15 publications

(12 citation statements)

References 74 publications

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“…Consistently, using fluorescent 5HT sensor we found that extracellular 5HT levels parallel the increased DRN SERT axonal activity. These findings are in line with earlier dialysis studies showing increased 5HT levels in LH in response to food and CCK and that DRN projections to LH is anorexigenic [ 20 , [27] , [28] , [29] ] and provides evidence that increased serotonergic activity extends to BNST as well. Together with axonal imaging, our results suggest that DRN is a key brain region supplying nutrient-related serotonergic input to these regions to suppress food intake.…”

Section: Discussionsupporting

confidence: 92%

Dorsal raphe serotonergic neurons suppress feeding through redundant forebrain circuits

Aklan

Atasoy

Deng

et al. 2023

Molecular Metabolism

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Section: Discussionsupporting

confidence: 92%

Dorsal raphe serotonergic neurons suppress feeding through redundant forebrain circuits

Aklan

Atasoy

Deng

et al. 2023

Molecular Metabolism

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“…The rough distribution of orexin receptors was reported in rat brains by radiolabeled probes approximately 20 years ago and is still the most comprehensive information available (23,24). Cell resolution information of OX1R and OX2R has been available only for brain regions that abundantly express orexin receptors, such as the amygdala, tuberomammillary nucleus, raphe nuclei, locus coeruleus, and laterodorsal tegmental nucleus (14,(25)(26)(27)(28). At this time, the Allen Brain Atlas fails to show positive signals for orexin receptors and reliable antibodies for OX1R and OX2R that work for immunohistochemistry are not available.…”

Section: Introductionmentioning

confidence: 99%

Whole brain mapping of orexin receptor mRNA expression visualized by branchedin situhybridization chain reaction

Tsuneoka,

Funato

2023

Preprint

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Orexins, which are produced within neurons of the lateral hypothalamic area, play a pivotal role in the regulation of various behaviors, including sleep/wakefulness, reward behavior, and energy metabolism, via orexin receptor type 1 (OX1R) and type 2 (OX2R). Despite the advanced understanding of orexinergic regulation of behavior at the circuit level, the precise distribution of orexin receptors in the brain remains unknown. Here, we develop a new branched in situ hybridization chain reaction (bHCR) technique to visualize multiple target mRNAs in a semiquantitative manner, combined with immunohistochemistry, which provided comprehensive distribution of orexin receptor mRNA and neuron subtypes expressing orexin receptors in mouse brains. Only a limited number of cells expressing both Ox1r and Ox2r were observed in specific brain regions, such as the dorsal raphe nucleus and ventromedial hypothalamic nucleus. In many brain regions, Ox1r-expressing cells and Ox2r-expressing cells belong to different cell types, such as glutamatergic and GABAergic neurons. Moreover, our findings demonstrated considerable heterogeneity in Ox1r- or Ox2r-expressing populations of serotonergic, dopaminergic, noradrenergic, cholinergic, and histaminergic neurons. The majority of orexin neurons did not express orexin receptors. This study provides valuable insights into the mechanism underlying the physiological and behavioral regulation mediated by the orexin system, as well as the development of therapeutic agents targeting orexin receptors.

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“…These findings add an important new component to the neural circuit that regulates appetite and adiposity, while also shedding new light on the mechanisms by which leptin regulates this system. Finally, pharmacologic activation of these neurons could have therapeutic implications to reduce weight or to suppress the negative valence associated with hunger 66 .…”

Section: Discussionmentioning

confidence: 99%

Leptin Activated Hypothalamic BNC2 Neurons Acutely Suppress Food Intake

Tan,

Yin,

Tan

et al. 2024

Preprint

Self Cite

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Leptin is an adipose tissue hormone that maintains homeostatic control of adipose tissue mass by regulating the activity of specific neural populations controlling appetite and metabolism. Leptin regulates food intake by inhibiting orexigenic agouti-related protein (AGRP) neurons and activating anorexigenic pro-opiomelanocortin (POMC) neurons. However, while AGRP neurons regulate food intake on a rapid time scale, acute activation of POMC neurons has only a minimal effect. This has raised the possibility that there is a heretofore unidentified leptin-regulated neural population that suppresses appetite on a rapid time scale. Here, we report the discovery of a novel population of leptin-target neurons expressing basonuclin 2 (Bnc2) that acutely suppress appetite by directly inhibiting AGRP neurons. Opposite to the effect of AGRP activation, BNC2 neuronal activation elicited a place preference indicative of positive valence in hungry but not fed mice. The activity of BNC2 neurons is finely tuned by leptin, sensory food cues, and nutritional status. Finally, deleting leptin receptors in BNC2 neurons caused marked hyperphagia and obesity, similar to that observed in a leptin receptor knockout in AGRP neurons. These data indicate that BNC2-expressing neurons are a key component of the neural circuit that maintains energy balance, thus filling an important gap in our understanding of the regulation of food intake and leptin action.

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Pharmacological targeting of glutamatergic neurons within the brainstem for weight reduction

Cited by 15 publications

References 74 publications

Dorsal raphe serotonergic neurons suppress feeding through redundant forebrain circuits

Dorsal raphe serotonergic neurons suppress feeding through redundant forebrain circuits

Whole brain mapping of orexin receptor mRNA expression visualized by branchedin situhybridization chain reaction

Leptin Activated Hypothalamic BNC2 Neurons Acutely Suppress Food Intake

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