新生仔猪缺铁对认知发育猪生物医学模型中海马体DNA甲基化和基因转录的影响。

Impact of neonatal iron deficiency on hippocampal DNA methylation and gene transcription in a porcine biomedical model of cognitive development.

作者信息

Schachtschneider Kyle M, Liu Yingkai, Rund Laurie A, Madsen Ole, Johnson Rodney W, Groenen Martien A M, Schook Lawrence B

机构信息

Department of Animal Sciences, University of Illinois, 1201 W Gregory Drive, Urbana, IL, 61801, USA.

Animal Breeding and Genomics Centre, Wageningen University, P.O. Box 338, Wageningen, 6700AH, The Netherlands.

出版信息

BMC Genomics. 2016 Nov 3;17(1):856. doi: 10.1186/s12864-016-3216-y.

DOI:10.1186/s12864-016-3216-y

PMID:27809765

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5094146/

Abstract

BACKGROUND

Iron deficiency is a common childhood micronutrient deficiency that results in altered hippocampal function and cognitive disorders. However, little is known about the mechanisms through which neonatal iron deficiency results in long lasting alterations in hippocampal gene expression and function. DNA methylation is an epigenetic mark involved in gene regulation and altered by environmental factors. In this study, hippocampal DNA methylation and gene expression were assessed via reduced representation bisulfite sequencing and RNA-seq on samples from a previous study reporting reduced hippocampal-based learning and memory in a porcine biomedical model of neonatal iron deficiency.

RESULTS

In total 192 differentially expressed genes (DEGs) were identified between the iron deficient and control groups. GO term and pathway enrichment analysis identified DEGs associated with hypoxia, angiogenesis, increased blood brain barrier (BBB) permeability, and altered neurodevelopment and function. Of particular interest are genes previously implicated in cognitive deficits and behavioral disorders in humans and mice, including HTR2A, HTR2C, PAK3, PRSS12, and NETO1. Altered genome-wide DNA methylation was observed across 0.5 million CpG and 2.4 million non-CpG sites. In total 853 differentially methylated (DM) CpG and 99 DM non-CpG sites were identified between groups. Samples clustered by group when comparing DM non-CpG sites, suggesting high conservation of non-CpG methylation in response to neonatal environment. In total 12 DM sites were associated with 9 DEGs, including genes involved in angiogenesis, neurodevelopment, and neuronal function.

CONCLUSIONS

Neonatal iron deficiency leads to altered hippocampal DNA methylation and gene regulation involved in hypoxia, angiogenesis, increased BBB permeability, and altered neurodevelopment and function. Together, these results provide new insights into the mechanisms through which neonatal iron deficiency results in long lasting reductions in cognitive development in humans.

摘要

背景

缺铁是一种常见的儿童期微量营养素缺乏症，会导致海马功能改变和认知障碍。然而，关于新生儿缺铁导致海马基因表达和功能长期改变的机制，人们了解甚少。DNA甲基化是一种参与基因调控且会受环境因素影响而改变的表观遗传标记。在本研究中，我们通过简化代表性亚硫酸氢盐测序和RNA测序，对之前一项研究的样本进行了海马DNA甲基化和基因表达评估，该研究报告了在一个新生儿缺铁的猪生物医学模型中基于海马的学习和记忆能力下降。

结果

在缺铁组和对照组之间总共鉴定出192个差异表达基因（DEG）。基因本体（GO）术语和通路富集分析确定了与缺氧、血管生成、血脑屏障（BBB）通透性增加以及神经发育和功能改变相关的DEG。特别值得关注的是先前在人类和小鼠的认知缺陷和行为障碍中涉及的基因，包括5-羟色胺受体2A（HTR2A）、5-羟色胺受体2C（HTR2C）、p21蛋白（PAK3）、丝氨酸蛋白酶12（PRSS12）和神经毒素1（NETO1）。在超过50万个CpG和240万个非CpG位点观察到全基因组DNA甲基化改变。两组之间总共鉴定出853个差异甲基化（DM）CpG和99个DM非CpG位点。在比较DM非CpG位点时，样本按组聚类，表明非CpG甲基化在对新生儿环境的反应中具有高度保守性。总共有12个DM位点与9个DEG相关，包括参与血管生成、神经发育和神经元功能的基因。

结论

新生儿缺铁会导致海马DNA甲基化和基因调控改变，涉及缺氧、血管生成、BBB通透性增加以及神经发育和功能改变。总之，这些结果为新生儿缺铁导致人类认知发育长期下降的机制提供了新的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/388f/5094146/2d0331ab96ec/12864_2016_3216_Fig1_HTML.jpg

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新生仔猪缺铁对认知发育猪生物医学模型中海马体DNA甲基化和基因转录的影响。

Impact of neonatal iron deficiency on hippocampal DNA methylation and gene transcription in a porcine biomedical model of cognitive development.

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