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W4360960468 endingPage "101713" @default.
W4360960468 startingPage "101713" @default.
W4360960468 abstract "Orexin-A (OX-A) is a neuropeptide produced selectively by neurons of the lateral hypothalamus. It exerts powerful control over brain function and physiology by regulating energy homeostasis and complex behaviors linked to arousal. Under conditions of chronic or acute brain leptin signaling deficiency, such as in obesity or short-term food deprivation, respectively, OX-A neurons become hyperactive and promote hyperarousal and food seeking. However, this leptin-dependent mechanism is still mostly unexplored. The endocannabinoid 2-arachidonoyl-glycerol (2-AG) is known to be implicated in food consumption by promoting hyperphagia and obesity, and we and others demonstrated that OX-A is a strong inducer of 2-AG biosynthesis. Here, we investigated the hypothesis that, under acute (6 h fasting in wt mice) or chronic (in ob/ob mice) hypothalamic leptin signaling reduction, OX-A-induced enhancement of 2-AG levels leads to the production of the 2-AG-derived 2-arachidonoyl-sn-glycerol-3-phosphate (2-AGP), a bioactive lipid belonging to the class of lysophosphatidic acids (LPAs), which then regulates hypothalamic synaptic plasticity by disassembling α-MSH anorexigenic inputs via GSK-3β-mediated Tau phosphorylation, ultimately affecting food intake.We combined cell-type-specific morphological (CLEM and confocal microscopy), biochemical, pharmacological, and electrophysiological techniques to dissect the leptin- and OX-A/2-AGP-mediated molecular pathways regulating GSK-3β-controlled pT231-Tau production at POMC neurons of obese ob/ob and wild-type (wt) lean littermate mice and in an in vitro model of POMC neurons such as mHypoN41 neurons (N41).2-AGP is overproduced in the hypothalamus of obese leptin-deficient, or lean 6 h food-deprived mice, and promotes food intake by reducing α-MSH-expressing synaptic inputs to OX-A neurons via lysophosphatidic acid type-1 receptor (LPA1-R) activation, and pT231-Tau accumulation in α-MSH projections. This effect is due to the activation of the Pyk2-mediated pTyr216-GSK3β pathway and contributes to further elevating OX-A release in obesity. Accordingly, we found a strong correlation between OX-A and 2-AGP levels in the serum of obese mice and of human subjects.Hypothalamic feeding pathways are endowed with 2-AGP-mediated synaptic plasticity according to their inherent functional activities and the necessity to adapt to changes in the nutritional status. These findings reveal a new molecular pathway involved in energy homeostasis regulation, which could be targeted to treat obesity and related disturbances." @default.
W4360960468 created "2023-03-26" @default.
W4360960468 creator A5015691877 @default.
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W4360960468 creator A5078365141 @default.
W4360960468 creator A5080728035 @default.
W4360960468 creator A5085111204 @default.
W4360960468 date "2023-06-01" @default.
W4360960468 modified "2023-10-16" @default.
W4360960468 title "Orexin induces the production of an endocannabinoid-derived lysophosphatidic acid eliciting hypothalamic synaptic loss in obesity" @default.
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W4360960468 doi "https://doi.org/10.1016/j.molmet.2023.101713" @default.
W4360960468 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36977433" @default.