母体叶酸缺失对小鼠成年大脑中 Art3 DNA 甲基化的影响;对大脑和神经认知健康的潜在后果。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Dieuwertje E Kok, Rachael Saunders, Andrew Nelson, Darren Smith, Dianne Ford, John C Mathers, Jill A McKay
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引用次数: 0

摘要

健康和疾病的发育起源假说认为,生命早期的环境会对整个生命过程中的健康结果产生影响。特别是,包括 DNA 甲基化在内的表观遗传标记被认为是环境暴露影响后代健康的关键机制。孕前和孕期充足的母体叶酸对预防神经管畸形至关重要,但新出现的数据表明,早期叶酸暴露也可能影响儿童期的神经认知结果,甚至可能影响其后的神经认知结果。由于叶酸是为 DNA 甲基化提供甲基供体的关键,我们假设 DNA 甲基化可能是母体叶酸影响神经认知结果的一种中介机制。利用亚硫酸氢盐测序法,我们测量了妊娠期(约19-21天)和哺乳期(平均22天)与对照组(n=6,2毫克叶酸/千克膳食)相比,叶酸缺乏母体(n=5,0.4毫克叶酸/千克膳食)的成年后代脑组织中5个基因(Art3、Rsp16、Tspo、Wnt16、Pcdhb6)的DNA甲基化情况。之所以选择这些基因,是因为以前曾发现在小鼠和人类的整个生命过程中,母体叶酸摄入量会改变这些基因启动子的甲基化,而且这些基因可能与神经认知结果有关。母体叶酸摄入不足与28周龄成年小鼠皮层下脑组织中Art3基因低甲基化显著相关(平均降低6.2%,p=0.03)。其他基因在叶酸耗竭组和对照组之间没有发现明显的统计学差异。鉴于Art3与神经认知结果的关联,我们认为Art3值得在生命周期大脑健康的背景下进一步研究。我们发现了一种潜在的生物标志物,一旦在可获得的生物样本和人类环境中得到验证,它可能有助于追踪生命早期叶酸暴露对生命后期神经认知健康的影响,并可能用于开发和监测干预措施的效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of maternal folate depletion on Art3 DNA methylation in the murine adult brain; potential consequences for brain and neurocognitive health.

The developmental origins of health and disease hypothesis suggest early-life environment impacts health outcomes throughout the life course. In particular, epigenetic marks, including DNA methylation, are thought to be key mechanisms through which environmental exposures programme later-life health. Adequate maternal folate status before and during pregnancy is essential in the protection against neural tube defects, but data are emerging that suggest early-life folate exposures may also influence neurocognitive outcomes in childhood and, potentially, thereafter. Since folate is key to the supply of methyl donors for DNA methylation, we hypothesize that DNA methylation may be a mediating mechanism through which maternal folate influences neurocognitive outcomes. Using bisulphite sequencing, we measured DNA methylation of five genes (Art3, Rsp16, Tspo, Wnt16, and Pcdhb6) in the brain tissue of adult offspring of dams who were depleted of folate (n = 5, 0.4 mg folic acid/kg diet) during pregnancy (~19-21 days) and lactation (mean 22 days) compared with controls (n = 6, 2 mg folic acid/kg diet). Genes were selected as methylation of their promoters had previously been found to be altered by maternal folate intake in mice and humans across the life course, and because they have potential associations with neurocognitive outcomes. Maternal folate depletion was significantly associated with Art3 gene hypomethylation in subcortical brain tissue of adult mice at 28 weeks of age (mean decrease 6.2%, P = .03). For the other genes, no statistically significant differences were found between folate depleted and control groups. Given its association with neurocognitive outcomes, we suggest Art3 warrants further study in the context of lifecourse brain health. We have uncovered a potential biomarker that, once validated in accessible biospecimens and human context, may be useful to track the impact of early-life folate exposure on later-life neurocognitive health, and potentially be used to develop and monitor the effects of interventions.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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