Narayanaswami Vidya, Dwoskin Linda P
Department of Pharmaceutical Sciences, College of Pharmacy, University of Kentucky, Lexington, KY, 40536, USA.
Department of Pharmaceutical Sciences, College of Pharmacy, University of Kentucky, Lexington, KY, 40536, USA.
Pharmacol Ther. 2017 Feb;170:116-147. doi: 10.1016/j.pharmthera.2016.10.015. Epub 2016 Oct 20.
Obesity is a global epidemic that contributes to a number of health complications including cardiovascular disease, type 2 diabetes, cancer and neuropsychiatric disorders. Pharmacotherapeutic strategies to treat obesity are urgently needed. Research over the past two decades has increased substantially our knowledge of central and peripheral mechanisms underlying homeostatic energy balance. Homeostatic mechanisms involve multiple components including neuronal circuits, some originating in hypothalamus and brain stem, as well as peripherally-derived satiety, hunger and adiposity signals that modulate neural activity and regulate eating behavior. Dysregulation of one or more of these homeostatic components results in obesity. Coincident with obesity, reward mechanisms that regulate hedonic aspects of food intake override the homeostatic regulation of eating. In addition to functional interactions between homeostatic and reward systems in the regulation of food intake, homeostatic signals have the ability to alter vulnerability to drug abuse. Regarding the treatment of obesity, pharmacological monotherapies primarily focus on a single protein target. FDA-approved monotherapy options include phentermine (Adipex-P®), orlistat (Xenical®), lorcaserin (Belviq®) and liraglutide (Saxenda®). However, monotherapies have limited efficacy, in part due to the recruitment of alternate and counter-regulatory pathways. Consequently, a multi-target approach may provide greater benefit. Recently, two combination products have been approved by the FDA to treat obesity, including phentermine/topiramate (Qsymia®) and naltrexone/bupropion (Contrave®). The current review provides an overview of homeostatic and reward mechanisms that regulate energy balance, potential therapeutic targets for obesity and current treatment options, including some candidate therapeutics in clinical development. Finally, challenges in anti-obesity drug development are discussed.
肥胖是一种全球性的流行病,会引发许多健康问题,包括心血管疾病、2型糖尿病、癌症和神经精神疾病。迫切需要治疗肥胖的药物治疗策略。过去二十年的研究极大地增加了我们对能量稳态平衡的中枢和外周机制的认识。稳态机制涉及多个组成部分,包括神经回路,其中一些起源于下丘脑和脑干,以及外周产生的饱腹感、饥饿感和肥胖信号,这些信号调节神经活动并调节饮食行为。这些稳态组成部分中的一个或多个失调会导致肥胖。与肥胖同时发生的是,调节食物摄入享乐方面的奖赏机制会凌驾于饮食的稳态调节之上。除了稳态系统和奖赏系统在食物摄入调节中的功能相互作用外,稳态信号还能够改变对药物滥用的易感性。关于肥胖的治疗,药物单一疗法主要侧重于单一蛋白质靶点。美国食品药品监督管理局(FDA)批准的单一疗法选项包括苯丁胺(Adipex-P®)、奥利司他(Xenical®)、氯卡色林(Belviq®)和利拉鲁肽(Saxenda®)。然而,单一疗法的疗效有限,部分原因是会引发替代和反调节途径。因此,多靶点方法可能会带来更大的益处。最近,FDA批准了两种用于治疗肥胖的复方产品,包括苯丁胺/托吡酯(Qsymia®)和纳曲酮/安非他酮(Contrave®)。本综述概述了调节能量平衡的稳态和奖赏机制、肥胖的潜在治疗靶点以及当前的治疗选择,包括一些处于临床开发阶段的候选治疗药物。最后,讨论了抗肥胖药物开发中的挑战。