Maternal dietary deficiencies in folic acid or choline reduce primary neuron viability after exposure to hypoxia through increased levels of apoptosis.

IF 3.6 4区 医学 Q2 NEUROSCIENCES Nutritional Neuroscience Pub Date : 2024-09-04 DOI:10.1080/1028415X.2024.2398365
Alice Yaldiko, Sarah Coonrod, Purvaja Marella, Lauren Hurley, Nafisa M Jadavji
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Abstract

Objective: Ischemic stroke is the leading cause of death and disability globally. By addressing modifiable risk factors, particularly nutrition, the prevalence of stroke and its dire consequences can be mitigated. One-carbon (1C) metabolism is a critical biosynthetic process that is involved in neural tube closure, DNA synthesis, plasticity, and cellular proliferation. Folates and choline are two active components of 1C metabolism. We have previously demonstrated that maternal dietary deficiencies during pregnancy and lactation in folic acid or choline result in worse stroke outcomes in offspring. However, there is insufficient data to understand the neuronal mechanisms involved.Methods: Using C57Bl/6J female mice maintained on control, folic acid (0.3 mg/kg) or choline (choline bitrate 300 mg/kg) deficient diets we collected embryonic primary neurons from offspring and exposed them to hypoxic conditions for 6 hours. To determine whether increased levels of either folic acid or choline can rescue reduced neuronal viability, we supplemented cell media with folic acid and choline prior to and after exposure to hypoxia.Results: Our results suggest that maternal dietary deficiencies in either folic acid or choline during pregnancy negatively impacts offspring neuronal viability after hypoxia. Furthermore, increasing levels of folic acid (250 mg/ml) or choline chloride (250 mg/ml) prior to and after hypoxia have a beneficial impact on neuronal viability.Conclusion: The findings contribute to our understanding of the intricate interplay between maternal dietary factors, 1C metabolism, and the outcome of offspring to hypoxic events, emphasizing the potential for nutritional interventions in mitigating adverse outcomes.

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母体膳食中叶酸或胆碱的缺乏会增加细胞凋亡水平,从而降低原发性神经元在缺氧情况下的存活率。
目的:缺血性中风是全球死亡和残疾的主要原因。通过解决可改变的风险因素,尤其是营养问题,可以降低中风的发病率并减轻其严重后果。一碳(1C)代谢是一个关键的生物合成过程,参与神经管闭合、DNA 合成、可塑性和细胞增殖。叶酸和胆碱是一碳代谢的两种活性成分。我们以前曾证实,母体在妊娠期和哺乳期饮食中缺乏叶酸或胆碱会导致后代中风预后更差。然而,目前还没有足够的数据来了解其中涉及的神经元机制:方法:我们使用 C57Bl/6J 雌性小鼠,在对照组、叶酸(0.3 毫克/千克)或胆碱(胆碱比特 300 毫克/千克)缺乏的膳食中饲养,收集后代的胚胎初级神经元,并将其暴露在缺氧条件下 6 小时。为了确定叶酸或胆碱水平的提高是否能挽救神经元活力的降低,我们在暴露于缺氧之前和之后在细胞介质中补充了叶酸和胆碱:结果:我们的研究结果表明,孕期母体饮食中叶酸或胆碱的缺乏会对缺氧后的后代神经细胞活力产生负面影响。此外,在缺氧前和缺氧后增加叶酸(250 毫克/毫升)或氯化胆碱(250 毫克/毫升)的含量对神经元的存活能力有好处:这些发现有助于我们了解母体饮食因素、1C 代谢和后代缺氧结果之间错综复杂的相互作用,强调了营养干预在减轻不良结果方面的潜力。
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来源期刊
Nutritional Neuroscience
Nutritional Neuroscience 医学-神经科学
CiteScore
8.50
自引率
2.80%
发文量
236
审稿时长
>12 weeks
期刊介绍: Nutritional Neuroscience is an international, interdisciplinary broad-based, online journal for reporting both basic and clinical research in the field of nutrition that relates to the central and peripheral nervous system. Studies may include the role of different components of normal diet (protein, carbohydrate, fat, moderate use of alcohol, etc.), dietary supplements (minerals, vitamins, hormones, herbs, etc.), and food additives (artificial flavours, colours, sweeteners, etc.) on neurochemistry, neurobiology, and behavioural biology of all vertebrate and invertebrate organisms. Ideally this journal will serve as a forum for neuroscientists, nutritionists, neurologists, psychiatrists, and those interested in preventive medicine.
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