产前对产后神经可塑性的影响:整合 DOHaD 和敏感期/关键期框架,了解早期发育中的生物嵌入。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-03-06 DOI:10.1111/infa.12588
Emma T Margolis, Laurel J Gabard-Durnam
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引用次数: 0

摘要

早期环境会对人一生中的大脑、身体和行为产生重大而持久的影响。在此,我们将从一个新的视角,结合两个著名的概念框架--健康与疾病的发展起源(DOHaD)和敏感期/关键期框架--来探讨当前的研究工作,以了解经历如何影响神经发育。具体来说,我们将考虑 DOHaD 模型所描述的产前经历如何影响敏感期/关键期这两个关键的神经生物学机制,以适应产后环境并从中学习。我们从动物和人类研究中总结了目前关于特定产前物质接触(精神活性物质和重金属)和营养状况(蛋白质能量营养不良和缺铁)如何对大脑回路的兴奋/GABA能抑制平衡和髓鞘化产生不同影响的知识。最后,我们强调了从这一综合框架中产生的新的研究方向,包括测试产前环境如何改变敏感期/关键期的时间和学习,以及确定潜在的促进/缓冲产前暴露对产后敏感期/关键期的影响。我们希望这个考虑产前对产后神经可塑性影响的综合框架能激发新的研究,以了解早期环境如何对我们的大脑、行为和健康产生持久的影响。
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Prenatal influences on postnatal neuroplasticity: Integrating DOHaD and sensitive/critical period frameworks to understand biological embedding in early development.

Early environments can have significant and lasting effects on brain, body, and behavior across the lifecourse. Here, we address current research efforts to understand how experiences impact neurodevelopment with a new perspective integrating two well-known conceptual frameworks - the Developmental Origins of Health and Disease (DOHaD) and sensitive/critical period frameworks. Specifically, we consider how prenatal experiences characterized in the DOHaD model impact two key neurobiological mechanisms of sensitive/critical periods for adapting to and learning from the postnatal environment. We draw from both animal and human research to summarize the current state of knowledge on how particular prenatal substance exposures (psychoactive substances and heavy metals) and nutritional profiles (protein-energy malnutrition and iron deficiency) each differentially impact brain circuits' excitation/GABAergic inhibition balance and myelination. Finally, we highlight new research directions that emerge from this integrated framework, including testing how prenatal environments alter sensitive/critical period timing and learning and identifying potential promotional/buffering prenatal exposures to impact postnatal sensitive/critical periods. We hope this integrative framework considering prenatal influences on postnatal neuroplasticity will stimulate new research to understand how early environments have lasting consequences on our brains, behavior, and health.

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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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