Investigations of the endocannabinoid system in adipose tissue: effects of obesity/ weight loss and treatment options.

Danish medical bulletin Pub Date : 2011-04-01
Marianne Faurholt Bennetzen
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Abstract

Obesity is a world wide epidemic; it is becoming more usual to be overweight or obese than to be normal weight. Obesity increases the risk of an extensive range of diseases such as cardiovascular disease, diabetes mellitus type 2, hypertension, depression and some types of cancer. Adipose tissue is more than a storage organ for surplus energy - it is also a setting for complex metabolic processes and adipose tissue releases substances that interact with other parts of the body to influence several systems including food intake and energy metabolism. The endocannabinoid system (ECS) is one of the signalling systems that control feeding behaviour. The ECS is implicated in many functions, such as pain, memory, addiction, inflammation, and feeding, and could be considered a stress recovery system. It also seems to integrate nutrient intake, metabolism and storage maintaining homeostatic balance. The ECS is a recently discovered system, and research indicates hyperactivity in obesity. The aim of this thesis is to elaborate on the relationships of this widespread system and its elements in adipose tissue in obesity. Study I is a 4 weeks rat intervention study to investigate whether weight independent effect of Rimonabant treatment exists. We found that food intake-tolerance development could be circumvented by cyclic administration of Rimonabant and implications of weight independent effects of treatment. Study II is a cross-sectional study to establish the expression of cannabinoid receptor 1 from various adipose tissue depots of lean and obese persons. In this study we conclude, that the subcutaneous adipose tissue express more CBR1 than the visceral depot in lean, but comparable levels in obese. Study III is a 10 weeks human intervention study to asses the effects on the ECS of 10% weight loss. We found reduction in the ECS in obesity that normalised with weight loss. Our results clearly show the presence of all the components of the ECS in human adipose tissue, and suggest that the ECS is reduced in adipose tissue in obesity. Our results do not support the hypothesis of hyperactivity of the ECS in human obesity. Possible future treatment of obesity with CBR1 antagonist could involve cyclic treatment of specific peripheral compounds.

脂肪组织内源性大麻素系统的研究:肥胖/减肥的影响和治疗选择。
肥胖是一种世界性的流行病;超重或肥胖比正常体重变得越来越普遍。肥胖增加了患一系列疾病的风险,如心血管疾病、2型糖尿病、高血压、抑郁症和某些类型的癌症。脂肪组织不仅仅是储存多余能量的器官,它也是复杂代谢过程的场所,脂肪组织释放的物质与身体其他部位相互作用,影响包括食物摄入和能量代谢在内的几个系统。内源性大麻素系统(ECS)是控制摄食行为的信号系统之一。ECS涉及许多功能,如疼痛、记忆、成瘾、炎症和进食,可以被认为是一个压力恢复系统。它似乎还整合了营养摄入、代谢和储存,维持体内平衡。ECS是最近发现的一个系统,研究表明肥胖会导致过度活跃。本文的目的是阐述肥胖中这种广泛存在的系统及其在脂肪组织中的成分之间的关系。研究I是一项为期4周的大鼠干预研究,旨在调查利莫那班治疗是否存在体重无关效应。我们发现食物摄入耐受性的发展可以通过利莫那班的循环给药和体重独立治疗的影响来规避。研究II是一项横断面研究,旨在建立瘦人和肥胖者各种脂肪组织库中大麻素受体1的表达。在这项研究中,我们得出结论,瘦人的皮下脂肪组织比内脏储存表达更多的CBR1,但肥胖的水平相当。研究III是一项为期10周的人为干预研究,以评估体重减轻10%对ECS的影响。我们发现,随着体重减轻,肥胖患者的ECS减少。我们的研究结果清楚地表明,人类脂肪组织中存在ECS的所有成分,并表明肥胖的脂肪组织中ECS减少。我们的结果不支持人类肥胖中ECS过度活跃的假设。未来使用CBR1拮抗剂治疗肥胖症的可能包括对特定外周化合物的循环治疗。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Danish medical bulletin
Danish medical bulletin 医学-医学:内科
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