Zajac Michelle S, Renoir Thibault, Perreau Victoria M, Li Shanshan, Adams Wendy, van den Buuse Maarten, Hannan Anthony J
Florey Institute of Neuroscience and Mental Health, Melbourne Brain Centre, University of Melbourne, Parkville, VIC, Australia.
Department of Anatomy and Neuroscience, University of Melbourne, Parkville, VIC, Australia.
Front Mol Neurosci. 2018 Dec 10;11:433. doi: 10.3389/fnmol.2018.00433. eCollection 2018.
Huntington's disease (HD) is a neurodegenerative disorder caused by a tandem repeat mutation encoding an expanded polyglutamine tract in the huntingtin protein, which leads to cognitive, psychiatric and motor dysfunction. Exposure to environmental enrichment (EE), which enhances levels of cognitive stimulation and physical activity, has therapeutic effects on cognitive, affective and motor function of transgenic HD mice. The present study investigated gene expression changes and behavioral pharmacology in male and female R6/1 transgenic HD mice at an early time-point in HD progression associated with onset of cognitive and affective abnormalities, following EE and exercise (wheel running) interventions. We have demonstrated changes in expression levels of the serotonin (5-HT) receptor Htr1a, Htr1b, Htr2a and Htr2c genes (encoding the 5-HT, 5-HT, 5-HT and 5-HT receptors, respectively) in HD brains at 8 weeks of age, using quantitative real-time PCR. In contrast, expression of the serotonin transporter (SerT, also known as 5-HTT or Slc6a4) was not altered in these brains. Furthermore, we identified region-specific, sex-specific and environmentally regulated (comparing EE, exercise and standard housing conditions) impacts on gene expression of particular 5-HT receptors, as well as SerT. For example, SerT gene expression was upregulated by exercise (wheel running from 6 to 8 weeks of age) in the hippocampus. Interestingly, when EE was introduced from 6 to 8 weeks of age, Htr2a gene expression was upregulated in the cortex, striatum and hippocampus of male mice. EE also rescued the functional activity of 5-HT receptors as observed in the head-twitch test, reflecting sexually dimorphic effects of environmental stimulation. These findings demonstrate that disruption of the serotonergic system occurs early in HD pathogenesis and, together with previous findings, show that the timing and duration of environmental interventions are critical in terms of their ability to modify gene expression. This study is the first to show that EE is able to selectively enhance both gene expression of a neurotransmitter receptor and the functional consequences on behavioral pharmacology, and links this molecular modulation to the therapeutic effects of environmental stimulation in this neurodegenerative disease.
亨廷顿舞蹈症(HD)是一种神经退行性疾病,由编码亨廷顿蛋白中扩展的聚谷氨酰胺序列的串联重复突变引起,该突变会导致认知、精神和运动功能障碍。暴露于环境富集(EE)中,即增强认知刺激和身体活动水平,对转基因HD小鼠的认知、情感和运动功能具有治疗作用。本研究调查了在HD进展的早期时间点,与认知和情感异常发作相关,经EE和运动(轮转跑步)干预后,雄性和雌性R6/1转基因HD小鼠的基因表达变化和行为药理学。我们使用定量实时PCR证明了8周龄HD小鼠大脑中血清素(5-HT)受体Htr1a、Htr1b、Htr2a和Htr2c基因(分别编码5-HT、5-HT、5-HT和5-HT受体)的表达水平发生了变化。相比之下,血清素转运体(SerT,也称为5-HTT或Slc6a4)在这些大脑中的表达没有改变。此外,我们确定了特定5-HT受体以及SerT的基因表达受到区域特异性、性别特异性和环境调节(比较EE、运动和标准饲养条件)的影响。例如,运动(6至8周龄轮转跑步)可使海马体中的SerT基因表达上调。有趣的是,当在6至8周龄引入EE时,雄性小鼠大脑皮层、纹状体和海马体中的Htr2a基因表达上调。EE还在头部抽搐试验中挽救了5-HT受体的功能活性,反映了环境刺激的性别差异效应。这些发现表明,血清素能系统的破坏在HD发病机制的早期就会发生,并且与先前的发现一起表明,环境干预的时间和持续时间对于其改变基因表达的能力至关重要。本研究首次表明,EE能够选择性地增强神经递质受体的基因表达以及行为药理学上的功能后果,并将这种分子调节与这种神经退行性疾病中环境刺激的治疗效果联系起来。
