神经元型一氧化氮合酶基因缺失会加重小鼠的胎儿酒精影响。I:行为缺陷。
Genetic absence of nNOS worsens fetal alcohol effects in mice. I: behavioral deficits.
作者信息
Karacay Bahri, Bonthius Nancy E, Plume Jeffrey, Bonthius Daniel J
机构信息
Department of Pediatrics, University of Iowa College of Medicine, Iowa City, Iowa.
出版信息
Alcohol Clin Exp Res. 2015 Feb;39(2):212-20. doi: 10.1111/acer.12616.
BACKGROUND
Alcohol abuse during pregnancy often induces neuropsychological problems in the offspring, including learning disorders, attention deficits, and behavior problems, all of which are prominent components of fetal alcohol spectrum disorders (FASD). However, not all children who were exposed to alcohol in utero are equally affected by it. While some children have major deficits, others are spared. This unequal vulnerability is likely due largely to differences in fetal genetics. Some fetuses appear to have certain genotypes that make them much more prone to FASD. However, to date, no gene has been identified that worsens alcohol-induced brain dysfunction. Nitric oxide (NO) is a gaseous molecule that can protect developing neurons against alcohol-induced death. In the brain, NO is produced by neuronal nitric oxide synthase (nNOS). In this study, we examined whether homozygous mutation of the nNOS gene in mice worsens the behavioral deficits of developmental alcohol exposure.
METHODS
Wild-type and nNOS(-/-) mice received alcohol (0.0, 2.2, or 4.4 mg/g) daily over postnatal days (PDs) 4 to 9. Beginning on PD 85, the mice underwent a series of behavioral tests, including open field activity, the Morris water maze, and paired pulse inhibition.
RESULTS
For the wild-type mice, alcohol impaired performance only in the water maze. In contrast, for the nNOS(-/-) mice, alcohol impaired performance on all 3 tasks. Furthermore, the nNOS(-/-) mice were substantially more impaired than wild-type mice in their performance on all 3 of the behavioral tests and at both the low (2.2) and high (4.4) doses of alcohol.
CONCLUSIONS
Targeted disruption of the nNOS gene worsens the behavioral impact of developmental alcohol exposure and allows alcohol-induced learning problems to emerge that are not seen in wild type. This is the first demonstration that a specific genotype can interact with alcohol to worsen functional brain deficits in an animal model of FASD.
背景
孕期酗酒常常会在后代中引发神经心理问题,包括学习障碍、注意力缺陷和行为问题,所有这些都是胎儿酒精谱系障碍(FASD)的显著组成部分。然而,并非所有子宫内接触过酒精的儿童都会受到同等程度的影响。有些儿童有严重缺陷,而另一些则未受影响。这种不平等的易感性很可能在很大程度上归因于胎儿基因的差异。一些胎儿似乎具有某些基因型,使他们更容易患FASD。然而,迄今为止,尚未发现会加剧酒精诱导的脑功能障碍的基因。一氧化氮(NO)是一种气体分子,可保护发育中的神经元免受酒精诱导的死亡。在大脑中,NO由神经元型一氧化氮合酶(nNOS)产生。在本研究中,我们研究了小鼠nNOS基因的纯合突变是否会加剧发育性酒精暴露导致的行为缺陷。
方法
野生型和nNOS(-/-)小鼠在出生后第4至9天每天接受酒精(0.0、2.2或4.4mg/g)。从出生后第85天开始,对小鼠进行一系列行为测试,包括旷场活动、莫里斯水迷宫和配对脉冲抑制。
结果
对于野生型小鼠,酒精仅损害水迷宫中的表现。相比之下,对于nNOS(-/-)小鼠,酒精损害了所有3项任务的表现。此外,在所有3项行为测试中,以及在低剂量(2.2)和高剂量(4.4)酒精条件下,nNOS(-/-)小鼠的表现均比野生型小鼠受到的损害大得多。
结论
nNOS基因的靶向破坏加剧了发育性酒精暴露的行为影响,并导致出现野生型中未见的酒精诱导的学习问题。这是首次证明在FASD动物模型中,特定基因型可与酒精相互作用,加剧功能性脑缺陷。
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