Cholecystokinin-induced satiety, a key gut servomechanism that is affected by the membrane microenvironment of this receptor.

International journal of obesity supplements Pub Date : 2016-12-01 Epub Date: 2016-11-16 DOI:10.1038/ijosup.2016.5
A J Desai, M Dong, K G Harikumar, L J Miller
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引用次数: 13

Abstract

The gastrointestinal (GI) tract has a central role in nutritional homeostasis, as location for food ingestion, digestion and absorption, with the gut endocrine system responding to and regulating these events, as well as influencing appetite. One key GI hormone with the full spectrum of these activities is cholecystokinin (CCK), a peptide released from neuroendocrine I cells scattered through the proximal intestine in response to fat and protein, with effects to stimulate gall bladder contraction and pancreatic exocrine secretion, to regulate gastric emptying and intestinal transit, and to induce satiety. There has been interest in targeting the type 1 CCK receptor (CCK1R) for drug development to provide non-caloric satiation as an aid to dieting and weight loss; however, there have been concerns about CCK1R agonists related to side effects and potential trophic impact on the pancreas. A positive allosteric modulator (PAM) of CCK action at this receptor without intrinsic agonist activity could provide a safer and more effective approach to long-term administration. In addition, CCK1R stimulus-activity coupling has been shown to be negatively affected by excess membrane cholesterol, a condition described in the metabolic syndrome, thereby potentially interfering with an important servomechanism regulating appetite. A PAM targeting this receptor could also potentially correct the negative impact of cholesterol on CCK1R function. We will review the molecular basis for binding natural peptide agonist, binding and action of small molecules within the allosteric pocket, and the impact of cholesterol. Novel strategies for taking advantage of this receptor for the prevention and management of obesity will be reviewed.

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胆囊收缩素诱导饱腹感是受该受体膜微环境影响的关键肠道伺服机制。
胃肠道作为食物摄入、消化和吸收的场所,在营养稳态中起着核心作用,肠道内分泌系统响应和调节这些事件,并影响食欲。胆囊收缩素(CCK)是一种关键的胃肠道激素,具有全方位的这些活性,是一种由分散在近端肠中的神经内分泌I细胞释放的肽,以响应脂肪和蛋白质,具有刺激胆囊收缩和胰腺外分泌,调节胃排空和肠道运输以及诱导饱腹感的作用。有兴趣针对1型CCK受体(CCK1R)进行药物开发,以提供非热量饱足作为节食和减肥的辅助;然而,CCK1R激动剂的副作用和对胰腺的潜在营养影响一直受到关注。CCK对该受体的正变构调节剂(PAM)无内在激动剂活性,可提供更安全、更有效的长期给药方法。此外,CCK1R刺激-活性偶联已被证明会受到过量膜胆固醇(代谢综合征中描述的一种情况)的负面影响,从而可能干扰调节食欲的重要伺服机制。针对这种受体的PAM也可能潜在地纠正胆固醇对CCK1R功能的负面影响。我们将回顾结合天然肽激动剂的分子基础,变构口袋内小分子的结合和作用,以及胆固醇的影响。本文将对利用该受体预防和控制肥胖的新策略进行综述。
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