Section on Molecular Neurobiology, Eunice Kennedy Shriver National Institute of Child Health and Human Development, Bethesda, MD, USA.
Laboratory of Molecular Pathophysiology, National Institute of Mental Health, National Institutes of Health, Bethesda, MD, USA.
Mol Psychiatry. 2018 May;23(5):1233-1243. doi: 10.1038/mp.2017.22. Epub 2017 Mar 21.
Numerous genetic and functional studies implicate variants of Neuregulin-1 (NRG1) and its neuronal receptor ErbB4 in schizophrenia and many of its endophenotypes. Although the neurophysiological and behavioral phenotypes of NRG1 mutant mice have been investigated extensively, practically nothing is known about the function of NRG2, the closest NRG1 homolog. We found that NRG2 expression in the adult rodent brain does not overlap with NRG1 and is more extensive than originally reported, including expression in the striatum and medial prefrontal cortex (mPFC), and therefore generated NRG2 knockout mice (KO) to study its function. NRG2 KOs have higher extracellular dopamine levels in the dorsal striatum but lower levels in the mPFC; a pattern with similarities to dopamine dysbalance in schizophrenia. Like ErbB4 KO mice, NRG2 KOs performed abnormally in a battery of behavioral tasks relevant to psychiatric disorders. NRG2 KOs exhibit hyperactivity in a novelty-induced open field, deficits in prepulse inhibition, hypersensitivity to amphetamine, antisocial behaviors, reduced anxiety-like behavior in the elevated plus maze and deficits in the T-maze alteration reward test-a task dependent on hippocampal and mPFC function. Acute administration of clozapine rapidly increased extracellular dopamine levels in the mPFC and improved alternation T-maze performance. Similar to mice treated chronically with N-methyl-d-aspartate receptor (NMDAR) antagonists, we demonstrate that NMDAR synaptic currents in NRG2 KOs are augmented at hippocampal glutamatergic synapses and are more sensitive to ifenprodil, indicating an increased contribution of GluN2B-containing NMDARs. Our findings reveal a novel role for NRG2 in the modulation of behaviors with relevance to psychiatric disorders.
大量的遗传和功能研究表明,神经调节蛋白 1(NRG1)及其神经元受体 ErbB4 变体与精神分裂症及其许多表型有关。尽管 NRG1 突变小鼠的神经生理和行为表型已经得到了广泛的研究,但实际上对于 NRG1 最接近的同源物 NRG2 的功能几乎一无所知。我们发现,成年啮齿动物大脑中的 NRG2 表达与 NRG1 不重叠,而且比最初报道的更为广泛,包括在纹状体和内侧前额叶皮层(mPFC)中的表达;因此,我们生成了 NRG2 敲除小鼠(KO)来研究其功能。NRG2 KO 小鼠在背侧纹状体中的细胞外多巴胺水平较高,但在 mPFC 中的水平较低;这种模式与精神分裂症中的多巴胺失衡相似。与 ErbB4 KO 小鼠一样,NRG2 KO 小鼠在一系列与精神疾病相关的行为任务中表现异常。NRG2 KO 小鼠在新奇诱导的旷场中表现出过度活跃,在预脉冲抑制中存在缺陷,对安非他命敏感,表现出反社会行为,在高架十字迷宫中表现出焦虑样行为减少,在 T 迷宫改变奖励测试中表现出缺陷——这是一个依赖于海马和 mPFC 功能的任务。氯氮平的急性给药可迅速增加 mPFC 中的细胞外多巴胺水平,并改善交替 T 迷宫表现。与长期接受 N-甲基-D-天冬氨酸受体(NMDAR)拮抗剂治疗的小鼠类似,我们证明 NRG2 KO 小鼠中的海马谷氨酸能突触的 NMDAR 突触电流增强,对ifenprodil 更敏感,表明含有 GluN2B 的 NMDAR 的贡献增加。我们的研究结果揭示了 NRG2 在调节与精神疾病相关的行为方面的新作用。
