Sayed Muhammed Rassul, Masahiro Otsu, I. Styles, R. K. Neely, Daniel Fulton
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引用次数: 0
摘要
摘要 本研究旨在通过制定一套方案,在少突胶质细胞(OL)分化过程中跟踪和量化单个 MBP 颗粒,从而扩大我们对中枢神经系统髓鞘的关键成分--髓鞘碱性蛋白(MBP)的了解。通过对小鼠少突胶质细胞三个阶段的 Dendra2 标记 MBP 进行快速 TIRF 和 HILO 成像,跟踪 MBP 粒子的方向性、封闭性和扩散:少突胶质细胞前体、早期髓鞘化少突胶质细胞和成熟髓鞘化少突胶质细胞。在每个阶段,MBP 颗粒的方向性和封闭性都在增加,这与向新生髓鞘结构的渐进运输和招募相一致。出乎意料的是,扩散数据呈现出一种更为复杂的模式,扩散性最强的颗粒亚群在前体和早期髓鞘化阶段之间的过渡时期消失,然后重新出现在成熟 OL 的膜片中。这种颗粒行为的多样性是传统的集合平均方法所无法检测到的,它与 MBP 的多功能观点一致,MBP 在髓鞘扩张和压实中发挥作用。
Single-molecule tracking of myelin basic protein during oligodendrocyte differentiation
Abstract This study aimed to expand our understanding of myelin basic protein (MBP), a key component of central nervous system myelin, by developing a protocol to track and quantifying individual MBP particles during oligodendrocyte (OL) differentiation. MBP particle directionality, confinement, and diffusion were tracked by rapid TIRF and HILO imaging of Dendra2 tagged MBP in three stages of mouse oligodendroglia: OL precursors, early myelinating OLs, and mature myelinating OLs. The directionality and confinement of MBP particles increased at each stage consistent with progressive transport toward, and recruitment into, emerging myelin structures. Unexpectedly, diffusion data presented a more complex pattern with subpopulations of the most diffusive particles disappearing at the transition between the precursor and early myelinating stage, before reemerging in the membrane sheets of mature OLs. This diversity of particle behaviors, which would be undetectable by conventional ensemble-averaged methods, are consistent with a multifunctional view of MBP involving roles in myelin expansion and compaction.
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