Department of Pharmacology and Pharmaceutical Sciences, School of Pharmacy, University of Southern California, Los Angeles, CA 90089, USA.
Neuropsychopharmacology. 2011 Dec;36(13):2674-88. doi: 10.1038/npp.2011.157. Epub 2011 Aug 10.
Monoamine oxidase (MAO)-A is a key enzyme for the degradation of brain serotonin (5-hydroxytryptamine, 5-HT) and norepinephrine (NE). In humans and mice, total MAO-A deficiency results in high 5-HT and NE levels, as well as elevated reactive aggression. Here we report the generation of MAO-A(Neo) mice, a novel line of hypomorphic MAO-A mutants featuring the insertion of a floxed neomycin-resistance cassette in intron-12 of the Maoa gene. This construct resulted in a chimeric, non-functional variant of the Maoa-Neo transcript, with a truncated C-terminus, likely due to aberrant splicing; these deficits notwithstanding, small amounts of functional Maoa transcript were found in the brain of MAO-A(Neo) mice. In the prefrontal cortex and amygdala, MAO-A(Neo) mice showed low, yet detectable, MAO-A catalytic activity, as well as 5-HT levels equivalent to WT littermates; conversely, the hippocampus and midbrain of MAO-A(Neo) mice featured a neurochemical profile akin to MAO-A-knockout (KO) mice, with undetectable MAO-A activity and high 5-HT concentrations. MAO-A(Neo) mice showed significant increases in dendritic length in the pyramidal neurons of orbitofrontal cortex, but not basolateral amygdala, in comparison with WT littermates; by contrast, the orbitofrontal cortex of MAO-A KO mice showed significant reductions in basilar dendritic length, as well as a profound increase in apical dendritic length. MAO-A(Neo) mice showed a unique set of behavioral abnormalities, encompassing reduced open-field locomotion, perseverative responses, such as marble burying and water mist-induced grooming, and a lack of anxiety-like behaviors in the elevated plus-maze and light-dark box paradigms. Notably, whereas MAO-A(Neo) and KO mice showed significant reductions in social interaction, only the latter genotype showed increases in resident-intruder aggression. Taken together, our findings indicate that MAO A hypomorphism results in behavioral and morphological alterations distinct from those featured by MAO-A KO mice.
单胺氧化酶(MAO)-A 是大脑中 5-羟色胺(5-HT)和去甲肾上腺素(NE)降解的关键酶。在人类和小鼠中,总 MAO-A 缺乏会导致 5-HT 和 NE 水平升高,以及攻击性增强。在这里,我们报告了 MAO-A(Neo)小鼠的产生,这是一种新型的低功能 MAO-A 突变体,其 Maoa 基因的内含子 12 中插入了一个带有 neo 霉素抗性盒的 floxed。该构建体导致 Maoa-Neo 转录物的嵌合、无功能变体,其 C 端截短,可能是由于异常剪接所致;尽管存在这些缺陷,但在 MAO-A(Neo)小鼠的大脑中发现了少量功能性 Maoa 转录物。在额前皮质和杏仁核中,MAO-A(Neo)小鼠表现出低但可检测的 MAO-A 催化活性,以及与 WT 同窝仔相似的 5-HT 水平;相反,MAO-A(Neo)小鼠的海马体和中脑表现出类似于 MAO-A 敲除(KO)小鼠的神经化学特征,MAO-A 活性不可检测,5-HT 浓度高。与 WT 同窝仔相比,MAO-A(Neo)小鼠的眶额皮质锥体神经元的树突长度显著增加,但基底外侧杏仁核则不然;相比之下,MAO-A KO 小鼠的眶额皮质的基底树突长度显著减少,并且顶树突长度显著增加。MAO-A(Neo)小鼠表现出一系列独特的行为异常,包括旷场运动减少、强迫反应(如大理石掩埋和水雾诱导的梳理)和高架十字迷宫和明暗箱范式中焦虑样行为缺乏。值得注意的是,尽管 MAO-A(Neo)和 KO 小鼠的社会互动明显减少,但只有后者的基因型表现出增强的居民入侵者攻击性。总之,我们的研究结果表明,MAO A 低功能导致的行为和形态改变与 MAO-A KO 小鼠的改变不同。
