Developmental maturation and regional heterogeneity but no sexual dimorphism of the murine CNS myelin proteome.

IF 5.4 2区 医学 Q1 NEUROSCIENCES
Glia Pub Date : 2024-09-30 DOI:10.1002/glia.24614
Sophie B Siems, Vasiliki-Ilya Gargareta, Leonie C Schadt, Vinicius Daguano Gastaldi, Ramona B Jung, Lars Piepkorn, Patrizia Casaccia, Ting Sun, Olaf Jahn, Hauke B Werner
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引用次数: 0

Abstract

The molecules that constitute myelin are critical for the integrity of axon/myelin-units and thus speed and precision of impulse propagation. In the CNS, the protein composition of oligodendrocyte-derived myelin has evolutionarily diverged and differs from that in the PNS. Here, we hypothesized that the CNS myelin proteome also displays variations within the same species. We thus used quantitative mass spectrometry to compare myelin purified from mouse brains at three developmental timepoints, from brains of male and female mice, and from four CNS regions. We find that most structural myelin proteins are of approximately similar abundance across all tested conditions. However, the abundance of multiple other proteins differs markedly over time, implying that the myelin proteome matures between P18 and P75 and then remains relatively constant until at least 6 months of age. Myelin maturation involves a decrease of cytoskeleton-associated proteins involved in sheath growth and wrapping, along with an increase of all subunits of the septin filament that stabilizes mature myelin, and of multiple other proteins which potentially exert protective functions. Among the latter, quinoid dihydropteridine reductase (QDPR) emerges as a highly specific marker for mature oligodendrocytes and myelin. Conversely, female and male mice display essentially similar myelin proteomes. Across the four CNS regions analyzed, we note that spinal cord myelin exhibits a comparatively high abundance of HCN2-channels, required for particularly long sheaths. These findings show that CNS myelination involves developmental maturation of myelin protein composition, and regional differences, but absence of evidence for sexual dimorphism.

小鼠中枢神经系统髓鞘蛋白质组的发育成熟和区域异质性,但无性双态性。
构成髓鞘的分子对轴突/髓鞘单元的完整性至关重要,因此对脉冲传播的速度和精度也至关重要。在中枢神经系统中,少突胶质细胞衍生的髓鞘的蛋白质组成在进化过程中发生了分化,与中枢神经系统中的蛋白质组成不同。在此,我们假设中枢神经系统髓鞘蛋白质组在同一物种内也会出现差异。因此,我们使用定量质谱法比较了从三个发育时间点的小鼠大脑、雌雄小鼠大脑以及四个中枢神经系统区域纯化的髓鞘。我们发现,在所有测试条件下,大多数结构性髓鞘蛋白的丰度大致相似。然而,其他多种蛋白质的丰度随着时间的推移而明显不同,这意味着髓鞘蛋白质组在 P18 到 P75 之间逐渐成熟,然后保持相对稳定,直到至少 6 个月大。髓鞘的成熟涉及参与鞘生长和包裹的细胞骨架相关蛋白的减少、稳定成熟髓鞘的septin丝的所有亚基的增加以及其他多种可能发挥保护功能的蛋白的增加。在后者中,二氢蝶啶还原酶(QDPR)是成熟少突胶质细胞和髓鞘的高度特异性标记。相反,雌性小鼠和雄性小鼠的髓鞘蛋白质组基本相似。在所分析的四个中枢神经系统区域中,我们注意到脊髓髓鞘显示出相对较高的 HCN2-通道丰度,这对特别长的鞘是必需的。这些研究结果表明,中枢神经系统髓鞘化涉及髓鞘蛋白组成的发育成熟和区域差异,但没有证据表明存在性别二态性。
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
Glia
Glia 医学-神经科学
CiteScore
13.10
自引率
4.80%
发文量
162
审稿时长
3-8 weeks
期刊介绍: GLIA is a peer-reviewed journal, which publishes articles dealing with all aspects of glial structure and function. This includes all aspects of glial cell biology in health and disease.
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