产前暴露于美沙酮的小鼠体感皮层的性依赖性突触重塑。

Advances in drug and alcohol research Pub Date : 2022-04-01 Epub Date: 2022-04-25 DOI:10.3389/adar.2022.10400
Gregory G Grecco, Jui Yen Huang, Braulio Muñoz, Emma H Doud, Caliel D Hines, Yong Gao, Brooke Rodriguez, Amber L Mosley, Hui-Chen Lu, Brady K Atwood
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引用次数: 0

摘要

孕妇中阿片类药物使用量的增加导致越来越多的新生儿在产前接触阿片类物质,但阿片类化合物如何影响发育中的大脑仍有待充分了解。产前阿片类药物暴露的动物模型发现,体感行为发育缺陷一直持续到青春期,这表明阿片类物质暴露会诱导体感回路(如初级体感皮层)的长期神经适应(S1)。使用显示体感里程碑发育延迟的产前美沙酮暴露(PME)小鼠模型,我们进行了一项无偏见的多组学分析,并研究了早期青少年PME后代初级体感皮层(S1)的突触功能,在初级体感皮质中,触摸和疼痛感觉输入在大脑中接收。PME与S1中蛋白质和磷酸肽丰度的许多变化有关,这些变化在性别之间有很大差异。尽管在多组学评估中发现了显著的性别效应,但功能富集分析显示,无论性别如何,蛋白质和磷酸肽的差异都与突触相关的细胞成分和突触信号传导相关的生物过程有关。免疫组织化学分析发现PME后代的2/3和4层GABA能突触减少。这些免疫组织化学和蛋白质组学改变与功能后果有关,因为2/3层锥体神经元显示出抑制性突触后电流的振幅降低和衰减常数延长。最后,除了S1的皮层厚度减少外,细胞类型标记物分析显示,S1上层的小胶质细胞密度减少,这主要是由PME雌性驱动的。总之,我们的研究表明,PME以性别依赖的方式引起S1皮层突触功能和小胶质细胞的持久变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sex-Dependent Synaptic Remodeling of the Somatosensory Cortex in Mice With Prenatal Methadone Exposure.

Rising opioid use among pregnant women has led to a growing population of neonates exposed to opioids during the prenatal period, but how opioids affect the developing brain remains to be fully understood. Animal models of prenatal opioid exposure have discovered deficits in somatosensory behavioral development that persist into adolescence suggesting opioid exposure induces long lasting neuroadaptations on somatosensory circuitry such as the primary somatosensory cortex (S1). Using a mouse model of prenatal methadone exposure (PME) that displays delays in somatosensory milestone development, we performed an un-biased multi-omics analysis and investigated synaptic functioning in the primary somatosensory cortex (S1), where touch and pain sensory inputs are received in the brain, of early adolescent PME offspring. PME was associated with numerous changes in protein and phosphopeptide abundances that differed considerably between sexes in the S1. Although prominent sex effects were discovered in the multi-omics assessment, functional enrichment analyses revealed the protein and phosphopeptide differences were associated with synapse-related cellular components and synaptic signaling-related biological processes, regardless of sex. Immunohistochemical analysis identified diminished GABAergic synapses in both layer 2/3 and 4 of PME offspring. These immunohistochemical and proteomic alterations were associated with functional consequences as layer 2/3 pyramidal neurons revealed reduced amplitudes and a lengthened decay constant of inhibitory postsynaptic currents. Lastly, in addition to reduced cortical thickness of the S1, cell-type marker analysis revealed reduced microglia density in the upper layer of the S1 that was primarily driven by PME females. Taken together, our studies show the lasting changes on synaptic function and microglia in S1 cortex caused by PME in a sex-dependent manner.

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