Prenatal Stress Induces Translational Disruption Associated with Myelination Deficits.

IF 2.3 4区 医学 Q2 DEVELOPMENTAL BIOLOGY
Developmental Neuroscience Pub Date : 2023-01-01 Epub Date: 2023-03-31 DOI:10.1159/000530282
Gabrielle K Crombie, Hannah K Palliser, Julia C Shaw, Bethany A Hanley, Roisin A Moloney, Jonathan J Hirst
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引用次数: 0

Abstract

Disruptions to neurodevelopment are known to be linked to behavioral disorders in childhood and into adulthood. The fetal brain is extremely vulnerable to stimuli that alter inhibitory GABAergic pathways and critical myelination processes, programing long-term neurobehavioral disruption. The maturation of the GABAergic system into the major inhibitory pathway in the brain and the development of oligodendrocytes into mature cells capable of producing myelin are integral components of optimal neurodevelopment. The current study aimed to elucidate prenatal stress-induced mechanisms that disrupt these processes and to delineate the role of placental pathways in these adverse outcomes. Pregnant guinea pig dams were exposed to prenatal stress with strobe light exposure for 2 h/day on gestational age (GA) 35, 40, 45, 50, 55, 60, and 65, and groups of fetuses and placentae were collected after the stress exposure on GA40, GA50, GA60, and GA69 (term). Fetal plasma, placental, and brain tissue were collected for allopregnanolone and cortisol quantification with ELISA. Relative mRNA expression of genes of specific pathways of interest was examined with real-time PCR in placental and hippocampal tissue, and myelin basic protein (MBP) was quantified immunohistochemically in the hippocampus and surrounding regions for assessment of mature myelin. Prenatal stress in mid-late gestation resulted in disruptions to the translational machinery responsible for the production of myelin and decreased myelin coverage in the hippocampus and surrounding regions. The male placenta showed an initial protective increase in allopregnanolone concentrations in response to maternal psychosocial stress. The male and female placentae had a sex-dependent increase in neurosteroidogenic enzymes at term following prenatal stress. Independent from exposure to prenatal stress, at gestational day 60 - a critical period for myelin development, the placentae of female fetuses had increased capability of preventing cortisol transfer to the fetus through expression of 11-beta-hydroxysteroid dehydrogenase types 1 and 2. The deficits early in the process of maturation of myelination indicate that the reduced myelination observed at childhood equivalence in previous studies begins in fetal life. This negative programing persists into childhood, potentially due to dysregulation of MBP translation processes. Expression patterns of neurosteroidogenic enzymes in the placenta at term following stress may identify at-risk fetuses that have been exposed to a stressful in utero environment.

产前应激诱导与髓鞘形成缺陷相关的翻译中断。
众所周知,神经发育中断与儿童期和成年期的行为障碍有关。胎儿大脑极易受到改变抑制性GABA能通路和关键髓鞘形成过程的刺激,从而导致长期神经行为破坏。GABA能系统成熟为大脑中的主要抑制途径,以及少突胶质细胞发育为能够产生髓鞘的成熟细胞,是最佳神经发育的组成部分。目前的研究旨在阐明产前应激诱导的破坏这些过程的机制,并描述胎盘通路在这些不良结果中的作用。妊娠豚鼠母鼠在孕龄(GA)35、40、45、50、55、60和65暴露于频闪光的产前应激2 h/天,并在GA40、GA50、GA60和GA69(足月)应激暴露后收集胎儿和胎盘组。收集胎儿血浆、胎盘和脑组织,用ELISA对异孕烯醇酮和皮质醇进行定量。用实时PCR检测胎盘和海马组织中感兴趣的特定途径基因的相对mRNA表达,并用免疫组织化学方法定量海马和周围区域的髓鞘碱性蛋白(MBP),以评估成熟髓鞘。妊娠中后期的产前应激导致负责髓鞘产生的翻译机制中断,并降低了海马体和周围区域的髓鞘覆盖率。雄性胎盘显示,在母体心理社会压力的作用下,异孕烯酮浓度最初出现保护性增加。雄性和雌性胎盘在产前应激后足月时神经类固醇生成酶呈性别依赖性增加。独立于暴露于产前压力,在妊娠第60天(髓鞘发育的关键时期),女性胎儿的胎盘通过表达11β-羟基类固醇脱氢酶1型和2型来阻止皮质醇转移到胎儿的能力增强。髓鞘形成成熟过程早期的缺陷表明,在先前的研究中,在儿童期观察到的髓鞘形成减少始于胎儿期。这种负面编程一直持续到儿童时期,可能是由于MBP翻译过程的失调。应力后足月胎盘中神经类固醇生成酶的表达模式可能会识别暴露于子宫内应力环境中的高危胎儿。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Developmental Neuroscience
Developmental Neuroscience 医学-发育生物学
CiteScore
4.00
自引率
3.40%
发文量
49
审稿时长
>12 weeks
期刊介绍: ''Developmental Neuroscience'' is a multidisciplinary journal publishing papers covering all stages of invertebrate, vertebrate and human brain development. Emphasis is placed on publishing fundamental as well as translational studies that contribute to our understanding of mechanisms of normal development as well as genetic and environmental causes of abnormal brain development. The journal thus provides valuable information for both physicians and biologists. To meet the rapidly expanding information needs of its readers, the journal combines original papers that report on progress and advances in developmental neuroscience with concise mini-reviews that provide a timely overview of key topics, new insights and ongoing controversies. The editorial standards of ''Developmental Neuroscience'' are high. We are committed to publishing only high quality, complete papers that make significant contributions to the field.
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