叶酸反应性基因的全基因组通路分析以揭示人类口面部裂隙的发病机制。

Genome-wide pathway analysis of folate-responsive genes to unravel the pathogenesis of orofacial clefting in man.

作者信息

Bliek Bart J B, Steegers-Theunissen Régine P M, Blok Leen J, Santegoets Lindy A M, Lindemans Jan, Oostra Ben A, Steegers Eric A P, de Klein Annelies

机构信息

Department of Obstetrics and Gynecology, Erasmus MC, University Medical Center, Rotterdam, the Netherlands.

出版信息

Birth Defects Res A Clin Mol Teratol. 2008 Sep;82(9):627-35. doi: 10.1002/bdra.20488.

DOI:10.1002/bdra.20488

PMID:18655124

Abstract

BACKGROUND

A cleft of the lip with or without the palate (CLP) is a frequent congenital malformation with a heterogeneous etiology, for which folic acid supplementation has a protective effect. To gain more insight into the molecular pathways affected by natural folate, we examined gene expression profiles of cultured B-lymphoblasts from CLP patients before and after the addition of 5-methyltetrahydrofolate (5-mTHF) to the cultures.

METHODS

Immortalized B-lymphoblasts from five children with CLP were cultured in folate-deficient medium for 5 days. 5-mTHF was added to a concentration of 30 nM. Gene expression patterns were then evaluated before and after supplementation using Human Genome U133 Plus 2.0 arrays. Data analysis was performed with Omniviz and the GEPAS analysis suite. Differential genes were categorized into biological pathways with Ingenuity Pathway systems. Differential expression was validated by quantitative RT-PCR.

RESULTS

Using supervised clustering, with a false discovery rate <1%, we identified 144 and 409 significantly up-regulated and down-regulated probesets, respectively, after 5-mTHF addition. The regulated genes were involved in a variety of biological pathways, including one carbon pool and cell cycle regulation, biosynthesis of amino acids and DNA/RNA nucleotides, protein processing, apoptosis, and DNA repair.

CONCLUSIONS

The large variety of the identified folate responsive pathways fits with the modifying role of folate via the methylation pathway. From the present data we may conclude that folate deficiency deranges normal cell development, which might contribute to the development of CLP. The role of these folate responsive genes in CLP development is intriguing and needs further investigation.

摘要

背景

唇裂伴或不伴腭裂（CLP）是一种常见的先天性畸形，病因多样，补充叶酸具有保护作用。为了更深入了解天然叶酸影响的分子途径，我们检测了CLP患者培养的B淋巴细胞在添加5-甲基四氢叶酸（5-mTHF）前后的基因表达谱。

方法

将5名CLP患儿的永生化B淋巴细胞在叶酸缺乏的培养基中培养5天。添加5-mTHF至浓度为30 nM。然后使用人类基因组U133 Plus 2.0芯片评估添加前后的基因表达模式。使用Omniviz和GEPAS分析套件进行数据分析。通过 Ingenuity Pathway系统将差异基因分类到生物途径中。通过定量RT-PCR验证差异表达。

结果

使用监督聚类，错误发现率<1%，我们在添加5-mTHF后分别鉴定出144个和409个显著上调和下调的探针集。受调控的基因参与多种生物途径，包括一碳池和细胞周期调控、氨基酸和DNA/RNA核苷酸的生物合成、蛋白质加工、细胞凋亡和DNA修复。

结论

所确定的多种叶酸反应途径符合叶酸通过甲基化途径的调节作用。从目前的数据我们可以得出结论，叶酸缺乏会扰乱正常细胞发育，这可能导致CLP的发生。这些叶酸反应基因在CLP发生中的作用很有趣，需要进一步研究。

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叶酸反应性基因的全基因组通路分析以揭示人类口面部裂隙的发病机制。

Genome-wide pathway analysis of folate-responsive genes to unravel the pathogenesis of orofacial clefting in man.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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