Differential gene expression profiling implicates altered network development in rat postnatal day 4 cortex following 4-Methylimidazole (4-MeI) induced maternal seizures

IF 2.6 3区 医学 Q3 NEUROSCIENCES
Abdull J. Massri , Mackenzie Fitzpatrick , Helen Cunny , Jian-Liang Li , G. Jean Harry
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Abstract

Compromised maternal health leading to maternal seizures can have adverse effects on the healthy development of offspring. This may be the result of inflammation, hypoxia-ischemia, and altered GABA signaling. The current study examined cortical tissue from F2b (2nd litter of the 2nd generation) postnatal day 4 (PND4) offspring of female Harlan SD rats chronically exposed to the seizuregenic compound, 4-Methylimidazole (0, 750, or 2500 ppm 4-MeI). Maternal seizures were evident only at 2500 ppm 4-MeI. GABA related gene expression as examined by qRT-PCR and whole genome microarray showed no indication of disrupted GABA or glutamatergic signaling. Canonical pathway hierarchical clustering and multi-omics combinatory genomic (CNet) plots of differentially expressed genes (DEG) showed alterations in genes associated with regulatory processes of cell development including neuronal differentiation and synaptogenesis. Functional enrichment analysis showed a similarity of cellular processes across the two exposure groups however, the genes comprising each cluster were primarily unique rather than shared and often showed different directionality. A dose-related induction of cytokine signaling was indicated however, pathways associated with individual cytokine signaling were not elevated, suggesting an alternative involvement of cytokine signaling. Pathways related to growth process and cell signaling showed a negative activation supporting an interpretation of disruption or delay in developmental processes at the 2500 ppm 4-MeI exposure level with maternal seizures. Thus, while GABA signaling was not altered as has been observed with maternal seizures, the pattern of DEG suggested a potential for alteration in neuronal network formation.

差异基因表达谱表明,4-甲基咪唑(4-MeI)诱导的母体癫痫发作后,大鼠出生后第4天皮层的网络发育发生了改变。
母亲健康受损导致母亲癫痫发作,可能对后代的健康发展产生不利影响。这可能是炎症、缺氧缺血和GABA信号改变的结果。目前的研究检查了长期暴露于seizuregenic化合物4-甲基咪唑(0、750或2500)的雌性哈兰SD大鼠出生后第4天(PND4)F2b(第2代第2窝)后代的皮层组织 ppm 4-MeI)。母亲癫痫发作仅在2500时才明显 ppm 4-MeI。通过qRT-PCR和全基因组微阵列检测的GABA相关基因表达没有显示GABA或谷氨酸能信号被破坏的迹象。差异表达基因(DEG)的典型通路层次聚类和多组学组合基因组(CNet)图显示,与细胞发育调控过程(包括神经元分化和突触发生)相关的基因发生了变化。功能富集分析显示,两个暴露组的细胞过程相似,然而,组成每个簇的基因主要是独特的,而不是共享的,并且往往表现出不同的方向性。细胞因子信号传导的剂量相关诱导被表明,然而,与个体细胞因子信号相关的途径没有升高,这表明细胞因子信号的另一种参与。与生长过程和细胞信号传导相关的通路显示出负激活,支持对2500 ppm 4-MeI暴露水平与母体癫痫发作。因此,虽然GABA信号没有像在母体癫痫发作中观察到的那样改变,但DEG的模式表明神经元网络形成有可能改变。
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来源期刊
CiteScore
5.60
自引率
10.30%
发文量
48
审稿时长
58 days
期刊介绍: Neurotoxicology and Teratology provides a forum for publishing new information regarding the effects of chemical and physical agents on the developing, adult or aging nervous system. In this context, the fields of neurotoxicology and teratology include studies of agent-induced alterations of nervous system function, with a focus on behavioral outcomes and their underlying physiological and neurochemical mechanisms. The Journal publishes original, peer-reviewed Research Reports of experimental, clinical, and epidemiological studies that address the neurotoxicity and/or functional teratology of pesticides, solvents, heavy metals, nanomaterials, organometals, industrial compounds, mixtures, drugs of abuse, pharmaceuticals, animal and plant toxins, atmospheric reaction products, and physical agents such as radiation and noise. These reports include traditional mammalian neurotoxicology experiments, human studies, studies using non-mammalian animal models, and mechanistic studies in vivo or in vitro. Special Issues, Reviews, Commentaries, Meeting Reports, and Symposium Papers provide timely updates on areas that have reached a critical point of synthesis, on aspects of a scientific field undergoing rapid change, or on areas that present special methodological or interpretive problems. Theoretical Articles address concepts and potential mechanisms underlying actions of agents of interest in the nervous system. The Journal also publishes Brief Communications that concisely describe a new method, technique, apparatus, or experimental result.
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