p53 in AgRP neurons is required for protection against diet-induced obesity via JNK1

Quiñones, Mar; Al‐Massadi, Omar; Folgueira, Cintia; Bremser, Stephan; Gallego, Rosalı́a; Torres-Leal, Leonardo; Haddad-Tóvolli, Roberta; García‐Cáceres, Cristina; Hernández-Bautista, René; Lam, Brian; Beiroa, Daniel; Sanchez‐Rebordelo, Estrella; Senra, Ana; Malagon, Jose A.; Valério, Patrícia; Fondevila, Marcos F.; Fernø, Johan; Malagón, Marı́a M.; Contreras, Raian E.; Pfluger, Paul T.; Yeo, Giles S.H.; Tschöp, Matthias H.; Diéguez, Carlos; López, Miguel; Claret, Marc; Kloppenburg, Peter; Sabio, Guadalupe; Nogueiras, Rubén

doi:10.1038/s41467-018-05711-6

Cited by 41 publications

(42 citation statements)

References 81 publications

(104 reference statements)

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“…7,8,35 Considering that the increase in body weight following hepatocyte-specific p53 ablation was independent of food intake and associated with a decrease in energy expenditure, the mechanism of action underlying this impairment likely relates to p53's role in mitochondrial energetics. 7,8,35 Considering that the increase in body weight following hepatocyte-specific p53 ablation was independent of food intake and associated with a decrease in energy expenditure, the mechanism of action underlying this impairment likely relates to p53's role in mitochondrial energetics.…”

Section: Discussionmentioning

confidence: 99%

“…Studies in whole-body p53 KO mouse models report conflicting findings on the effect of p53 KO on body weight and metabolic homeostasis, with some studies finding that p53 KO decreases body weight and improves glucose regulation in mice on HFD 38 and others finding the opposite. 7,8,10 The discrepancy in findings in whole-body p53 KO models, maybe due to, in part, the development of compensatory pathways. 7,8,10 The discrepancy in findings in whole-body p53 KO models, maybe due to, in part, the development of compensatory pathways.…”

Section: Discussionmentioning

confidence: 99%

“…39,40 However, when p53 KO is studied using tissue-specific approaches, p53 KO is found to promote weight gain and metabolic impairment. 7,8,10 The discrepancy in findings in whole-body p53 KO models, maybe due to, in part, the development of compensatory pathways. These conflicting findings point to the need to generate a more refined understanding of p53 in metabolic regulation through the study of tissue-specific manipulations.…”

Section: Discussionmentioning

confidence: 99%

“…3 Thus, disruption of p53 signaling is a key | 1847 HOLTER ET aL. [5][6][7][8] Furthermore, impairments in p53 signaling in humans are associated with metabolic disease. 4 However, the metabolic actions of p53 have been shown to be highly relevant in the maintenance of metabolic homeostasis in noncancerous states as well.…”

Section: Introductionmentioning

confidence: 99%

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Hepatocyte p53 ablation induces metabolic dysregulation that is corrected by food restriction and vertical sleeve gastrectomy in mice

et al. 2019

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P53 has been implicated in the pathogenesis of obesity and diabetes; however, the mechanisms and tissue sites of action are incompletely defined. Therefore, we investigated the role of hepatocyte p53 in metabolic homeostasis using a hepatocytespecific p53 knockout mouse model. To gain further mechanistic insight, we studied mice under two complementary conditions of restricted weight gain: vertical sleeve gastrectomy (VSG) or food restriction. VSG or sham surgery was performed in highfat diet-fed male hepatocyte-specific p53 wild-type and knockout littermates. Shamoperated mice were fed ad libitum or food restricted to match their body weight to VSG-operated mice. Hepatocyte-specific p53 ablation in sham-operated ad libitumfed mice impaired glucose homeostasis, increased body weight, and decreased energy expenditure without changing food intake. The metabolic deficits induced by hepatocyte-specific p53 ablation were corrected, in part by food restriction, and completely by VSG. Unlike food restriction, VSG corrected the effect of hepatocyte p53 ablation to lower energy expenditure, resulting in a greater improvement in glucose homeostasis compared with food restricted mice. These data reveal an important new role for hepatocyte p53 in the regulation of energy expenditure and body weight and suggest that VSG can improve alterations in energetics associated with p53 dysregulation. K E Y W O R D Sbariatric surgery, body weight, energy expenditure, p53

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Hepatocyte p53 ablation induces metabolic dysregulation that is corrected by food restriction and vertical sleeve gastrectomy in mice

et al. 2019

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“…However, the PVH action on BAT activity seems 530 more related to a modulatory role, whereas a direct control 531 remains unclear. In this sense, it has been reported that direct stimulations of PVH do not induce effects on BAT activity 533 [174,175], whereas the inhibitory projections from the PVH to the rRPa could be implicated in the decrease of the sympa-535 thetic activity of the BAT [175,176]. tryptophan activate BAT thermogenesis [178,[191][192][193].…”

Section: Central Regulation Of Thermogenesismentioning

confidence: 99%

HYPOTHesizing about central comBAT against obesity

et al. 2019

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The hypothalamus is a brain region in charge of many vital functions. Among them, BAT thermogenesis represents an essential physiological function to maintain body temperature. In the metabolic context, it has now been established that energy expenditure attributed to BAT function can contribute to the energy balance in a substantial extent. Thus, therapeutic interest in this regard has increased in the last years and some studies have shown that BAT function in humans can make a real contribution to improve diabetes and obesity-associated diseases. Nevertheless, how the hypothalamus controls BAT activity is still not fully understood. Despite the fact that much has been known about the mechanisms that regulate BAT activity in recent years, and that the central regulation of thermogenesis offers a very promising target, many questions remain still unsolved. Among them, the possible human application of knowledge obtained from rodent studies, and drug administration strategies able to specifically target the hypothalamus. Here, we review the current knowledge of homeostatic regulation of BAT, including the molecular insights of brown adipocytes, its central control, and its implication in the development of obesity. Keywords separated by '-' Thermogenesis-Hypothalamus-Obesity-Brown adipose tissue-Browning-White adipose tissue Foot note information Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

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Electroacupuncture Mediates Fat Metabolism and Autophagy via a Sirt3‐Dependent Mechanism in Mice Fed High‐Fat Diet

Wang,

Sun,

et al. 2023

Advanced Biology

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This study investigates the therapeutic potential of electroacupuncture (EA) on obesity, focusing on its influence on autophagy and energy metabolism, utilizing a high‐fat diet (HFD)‐induced mouse model. Treatment with EA significantly reduces body weight, fat deposition, and lipid accumulation in HFD‐fed mice. Additionally, EA effectively ameliorates metabolic imbalances, reducing blood glucose levels and plasma markers of liver function. At the molecular level, EA enhances the expression of thermogenesis‐associated genes in brown adipose tissue and decreases p53 expression, suggesting a decrease in apoptosis. Autophagy in white adipose tissue is inhibited by EA, as demonstrated by the suppression of key autophagy‐related proteins. Further experiments highlight the critical role of Sirtuin 3 (Sirt3) in EA's anti‐obesity effects. Sirt3 supplementation combined with EA results in reduced body weight, fat deposition, and lipid accumulation, along with modulations in key metabolic indicators. Moreover, EA's modulatory effect on uncoupling protein 1 (Ucp1), Peroxisome proliferator‐activated receptor gamma coactivator 1‐alpha (Pgc‐1α), and p53 is found to be Sirt3 dependent. In conclusion, EA exerts beneficial effects against obesity through Sirt3‐dependent modulation of autophagy and energy metabolism, indicating a potential therapeutic approach for obesity and related metabolic disorders.

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p53 in AgRP neurons is required for protection against diet-induced obesity via JNK1

Cited by 41 publications

References 81 publications

Hepatocyte p53 ablation induces metabolic dysregulation that is corrected by food restriction and vertical sleeve gastrectomy in mice

Hepatocyte p53 ablation induces metabolic dysregulation that is corrected by food restriction and vertical sleeve gastrectomy in mice

HYPOTHesizing about central comBAT against obesity

Electroacupuncture Mediates Fat Metabolism and Autophagy via a Sirt3‐Dependent Mechanism in Mice Fed High‐Fat Diet

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