New horizons on the role of cannabinoid CB1 receptors in palatable food intake, obesity and related dysmetabolism.

International journal of obesity supplements Pub Date : 2014-07-01 Epub Date: 2014-07-08 DOI:10.1038/ijosup.2014.8
L Cristino, L Palomba, V Di Marzo
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引用次数: 18

Abstract

Excessive consumption of high-energy, palatable food contributes to obesity, which results in the metabolic syndrome, heart disease, type-2 diabetes and death. Current knowledge on the function of the hypothalamus as the brain 'feeding centre' recognizes this region as the main regulator of body weight in the central nervous system. Because of their intrinsically fast and adaptive activities, feeding-controlling neural circuitries are endowed with synaptic plasticity modulated by neurotransmitters and hormones that act at different hierarchical levels of integration. In the hypothalamus, among the chemical mediators involved in this integration, endocannabinoids (eCBs) are ideal candidates for the fast (that is, non-genomic), stress-related fine-tuning of neuronal functions. In this article, we overview the role of the eCB system (ECS) in the control of energy intake, and particularly in the consumption of high-energy, palatable food, and discuss how such a role is affected in the brain by changes in the levels of feeding-regulated hormones, such as the adipose tissue-derived anorexigenic mediator leptin, as well as by high-fat diets. The understanding of the molecular mechanisms underlying the neuronal control of feeding behaviours by eCBs offers many potential opportunities for novel therapeutic approaches against obesity. Highlights of the latest advances in the development of strategies that minimize central ECS overactivity in 'western diet'-driven obesity are discussed.

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大麻素CB1受体在美味食物摄入、肥胖和相关代谢障碍中的作用的新视野。
过量食用高能量、美味的食物会导致肥胖,从而导致代谢综合征、心脏病、2型糖尿病和死亡。目前关于下丘脑作为大脑“进食中心”的功能的知识认为,该区域是中枢神经系统中体重的主要调节器。由于其固有的快速和适应性活动,进食控制神经回路被赋予突触可塑性,由不同层次整合水平的神经递质和激素调节。在下丘脑中,在参与这种整合的化学介质中,内源性大麻素(eCBs)是快速(即非基因组)、与压力相关的神经元功能微调的理想候选者。在这篇文章中,我们概述了eCB系统(ECS)在控制能量摄入中的作用,特别是在高能量、美味食物的消耗中,并讨论了这种作用是如何受到喂养调节激素水平变化的影响的,比如脂肪组织来源的厌食介质瘦素,以及高脂肪饮食。对脑脊液神经元控制摄食行为的分子机制的理解为肥胖的新治疗方法提供了许多潜在的机会。重点讨论了在“西方饮食”驱动型肥胖中减少中枢ECS过度活动的策略发展的最新进展。
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