阅读可卡因成瘾大脑中的 LINEs。

Reading LINEs within the cocaine addicted brain.

机构信息

Department of Psychiatry Center for Neurobiology and Behavior University of Pennsylvania Perelman School of Medicine Philadelphia PA USA.

Johns Hopkins School of Medicine Institute of Genetic Medicine Baltimore MD USA.

出版信息

Brain Behav. 2017 Apr 6;7(5):e00678. doi: 10.1002/brb3.678. eCollection 2017 May.

DOI:10.1002/brb3.678

PMID:28523221

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5434184/

Abstract

INTRODUCTION

Long interspersed element (LINE)-1 (L1) is a type of retrotransposon capable of mobilizing into new genomic locations. Often studied in Mendelian diseases or cancer, L1s may also cause somatic mutation in the developing central nervous system. Recent reports showed L1 transcription was activated in brains of cocaine-treated mice, and L1 retrotransposition was increased in cocaine-treated neuronal cell cultures. We hypothesized that the predisposition to cocaine addiction may result from inherited L1s or somatic L1 mobilization in the brain.

METHODS

Postmortem medial prefrontal cortex (mPFC) tissue from 30 CA and 30 control individuals was studied. An Alexafluor488-labeled NeuN antibody and fluorescence activated nuclei sorting were used to separate neuronal from non-neuronal cell nuclei. L1s and their 3' flanking sequences were amplified from neuronal and non-neuronal genomic DNA (gDNA) using L1-seq. L1 DNA libraries from the neuronal gDNA were sequenced on an Illumina HiSeq2000. Sequences aligned to the hg19 human genome build were analyzed for L1 insertions using custom "L1-seq" bioinformatics programs.

RESULTS

Previously uncataloged L1 insertions, some validated by PCR, were detected in neurons from both CA and control brain samples. Steady-state L1 mRNA levels in CA and control mPFC were also assessed. Gene ontology and pathway analyses were used to assess relationships between genes putatively disrupted by novel L1s in CA and control individuals. L1 insertions in CA samples were enriched in gene ontologies and pathways previously associated with CA.

CONCLUSIONS

We conclude that neurons in the mPFC harbor L1 insertions that have the potential to influence predisposition to CA.

摘要

简介

长散布元件（LINE）-1（L1）是一种能够转移到新基因组位置的反转录元件。L1 通常在孟德尔疾病或癌症中进行研究，也可能导致发育中的中枢神经系统发生体细胞突变。最近的报告显示，可卡因处理的小鼠大脑中 L1 转录被激活，可卡因处理的神经元细胞培养物中 L1 反转录增加。我们假设可卡因成瘾的易感性可能是由于大脑中遗传的 L1 或体细胞 L1 动员引起的。

方法

研究了 30 名 CA 和 30 名对照个体的死后内侧前额叶皮质（mPFC）组织。使用 Alexafluor488 标记的 NeuN 抗体和荧光激活核分选将神经元与非神经元细胞核分离。使用 L1-seq 从神经元和非神经元基因组 DNA（gDNA）中扩增 L1 和其 3'侧翼序列。从神经元 gDNA 中的 L1 DNA 文库在 Illumina HiSeq2000 上进行测序。使用定制的“L1-seq”生物信息学程序分析与 hg19 人类基因组构建体对齐的序列，以确定 L1 插入。

结果

在 CA 和对照脑样本的神经元中检测到先前未被编目的 L1 插入，其中一些通过 PCR 验证。还评估了 CA 和对照 mPFC 中的稳态 L1 mRNA 水平。使用基因本体论和途径分析来评估 CA 和对照个体中潜在受新 L1 破坏的基因之间的关系。CA 样本中的 L1 插入在先前与 CA 相关的基因本体论和途径中富集。

结论

我们得出结论，mPFC 中的神经元含有潜在影响 CA 易感性的 L1 插入。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6552/5434184/f0f1d83a2700/BRB3-7-e00678-g001.jpg

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阅读可卡因成瘾大脑中的 LINEs。

Reading LINEs within the cocaine addicted brain.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

简介

方法

结果

结论

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