Experimental Medicine, GlaxoSmithKline, Clinical Unit Cambridge, UK.
CNS Neurosci Ther. 2011 Oct;17(5):490-505. doi: 10.1111/j.1755-5949.2010.00172.x. Epub 2010 Jul 7.
Central neurochemical systems including the monoamine, opioid, and cannabinoid systems have been promising targets for antiobesity drugs that modify behavioral components of obesity. In addition to modulating eating behavior, centrally acting antiobesity drugs are also likely to alter emotional behavior and cognitive function due to the high expression of receptors for the neurochemical systems targeted by these drugs within the fronto-striatal and limbic circuitry.
This paper reviewed the neuropsychiatric adverse effects of past and current antiobesity drugs, with a central mechanism of action, linking the adverse effects to their underlying neural substrates and neurochemistry.
Antiobesity drugs were found to have varying neuropsychiatric adverse event profiles. Insomnia was the most common adverse effect with drugs targeting monoamine systems (sibutramine, bupropion and tesofensine). These drugs had some positive effects on mood and anxiety and may have added therapeutic benefits in obese patients with comorbid depression and anxiety symptoms. Sedation and tiredness were the most common adverse effects reported with drugs targeting the m-opioid receptors (i.e., naltrexone) and combination therapies targeting the opioid and monoamine systems (i.e., Contrave™). Cognitive impairments were most frequently associated with the antiepileptic drugs, topiramate and zonisamide, consistent with their sedative properties. Drugs targeting the cannabinoid system (rimonabant and taranabant) were consistently associated with symptoms of anxiety and depression, including reports of suicidal ideation. Similar adverse events have also been noted for the D₁/D₅ antagonist ecopipam.
These findings highlight the need to assess neuropsychiatric adverse events comprehensively using sensitive and validated methods early in the clinical development of candidate antiobesity drugs with a central mechanism of action.
中枢神经化学系统,包括单胺、阿片和大麻素系统,一直是治疗肥胖症的药物的有前途的靶点,这些药物可以改变肥胖症的行为成分。除了调节饮食行为外,由于这些药物靶向的神经化学系统的受体在额纹状体和边缘回路中高度表达,中枢作用的抗肥胖药物也可能改变情绪行为和认知功能。
本文综述了过去和当前具有中枢作用机制的抗肥胖药物的神经精神不良作用,将不良反应与其潜在的神经生物学基础和神经化学联系起来。
抗肥胖药物具有不同的神经精神不良事件谱。失眠是最常见的不良反应,与单胺系统药物(西布曲明、安非他酮和特索芬辛)有关。这些药物对情绪和焦虑有一些积极影响,可能对伴有抑郁和焦虑症状的肥胖患者有额外的治疗益处。镇静和疲劳是最常见的不良反应,与靶向 m 阿片受体的药物(即纳曲酮)和靶向阿片和单胺系统的联合治疗(即 Contrave™)有关。认知障碍与抗癫痫药物,托吡酯和左乙拉西坦,最常相关,与其镇静作用一致。靶向大麻素系统的药物(利莫那班和塔兰班)与焦虑和抑郁症状一直有关,包括自杀意念的报告。D₁/D₅拮抗剂 ecopipam 也有类似的不良反应。
这些发现强调需要使用敏感和有效的方法,在具有中枢作用机制的候选抗肥胖药物的临床开发早期,全面评估神经精神不良事件。
