2017
DOI: 10.1016/j.phrs.2016.12.024
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Dysfunctional oleoylethanolamide signaling in a mouse model of Prader-Willi syndrome

Abstract: Prader-Willi syndrome (PWS), the leading genetic cause of obesity, is characterized by a striking hyperphagic behavior that can lead to obesity, type-2 diabetes, cardiovascular disease and death. The molecular mechanism underlying impaired satiety in PWS is unknown. Oleoylethanolamide (OEA) is alipid mediator involved in the control of feeding, body weight and energy metabolism. OEA produced by small-intestinal enterocytes during dietary fat digestion activates type-α peroxisome proliferator-activated receptor… Show more

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Cited by 17 publications
(22 citation statements)
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“…New evidence suggests that intraperitoneal administration of oleoylethanolamide (a lipid messenger, produced by small-intestinal enterocytes, that controls feeding, body weight, and energy metabolism) in Magel2KO mice is able to reduce food intake, probably acting through mechanisms underlying satiety control. 23 These results, combined with imaging studies showing both an increased functional response of the hypothalamus to food stimuli, 24 the involvement of the amygdala, 25 and the reduced coupling of the ventral striatum with limbic structures for basic internal homeostasis, 26 suggest a crucial role of several brain areas in the abnormal regulation of food intake in PWS.…”
Section: Obesity In Pwsmentioning
confidence: 94%
“…New evidence suggests that intraperitoneal administration of oleoylethanolamide (a lipid messenger, produced by small-intestinal enterocytes, that controls feeding, body weight, and energy metabolism) in Magel2KO mice is able to reduce food intake, probably acting through mechanisms underlying satiety control. 23 These results, combined with imaging studies showing both an increased functional response of the hypothalamus to food stimuli, 24 the involvement of the amygdala, 25 and the reduced coupling of the ventral striatum with limbic structures for basic internal homeostasis, 26 suggest a crucial role of several brain areas in the abnormal regulation of food intake in PWS.…”
Section: Obesity In Pwsmentioning
confidence: 94%
“…Third, viral-mediated enhancement of OEA production in rat jejunum reduces food intake and concomitantly increases local expression of PPAR-a target genes (Fu et al, 2008). Finally, OEA levels in small intestine from various vertebrate species, including fish, snakes, and rodents, rise from %50 nM in the fasting state to R250 nM after feeding (Astarita et al, 2006b;Fu et al, 2007;Tinoco et al, 2014;Igarashi et al, 2017), a concentration range that is compatible with PPAR-a activation (Fu et al, 2003;Astarita et al, 2006a). In sum, the available data indicate that OEA is a physiologically relevant endogenous agonist for small-intestinal PPAR-a, which participates in the control of satiety .…”
Section: Introductionmentioning
confidence: 99%
“…PEA and OEA are both involved in the regulation of lipid metabolism (Ueda et al, 2010). OEA is a satiety factor that suppresses feeding and stimulates lipolysis by activating PPAR-a receptors and in turn engaging vagal sensory afferent nerves (Hankir et al, 2017;Igarashi et al, 2017). However, there is not enough evidence to confirm the effects of PEA on appetite regulation and weight gain.…”
Section: Discussionmentioning
confidence: 99%