穹窿板衍生的放射状胶质样细胞支持快速适应机械感受器传入轴突的发育生长。

Roof Plate-Derived Radial Glial-like Cells Support Developmental Growth of Rapidly Adapting Mechanoreceptor Ascending Axons.

机构信息

Department of Neuroscience, University of Pennsylvania, Philadelphia, PA 19104, USA.

Department of Neuroscience, University of Pennsylvania, Philadelphia, PA 19104, USA; Shriners Hospital's Pediatric Research Center (Center for Neurorehabilitation and Neural Repair), Lewis Katz School of Medicine, Temple University, 3500 N. Broad Street, Philadelphia, PA 19140, USA.

出版信息

Cell Rep. 2018 Jun 5;23(10):2928-2941. doi: 10.1016/j.celrep.2018.05.025.

DOI:10.1016/j.celrep.2018.05.025

PMID:29874580

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6174691/

Abstract

Spinal cord longitudinal axons comprise some of the longest axons in our body. However, mechanisms that drive this extra long-distance axonal growth are largely unclear. We found that ascending axons of rapidly adapting (RA) mechanoreceptors closely abut a previously undescribed population of roof plate-derived radial glial-like cells (RGLCs) in the spinal cord dorsal column, which form a network of processes enriched with growth-promoting factors. In dreher mutant mice that lack RGLCs, the lengths of ascending RA mechanoreceptor axon branches are specifically reduced, whereas their descending and collateral branches, and other dorsal column and sensory pathways, are largely unaffected. Because the number and intrinsic growth ability of RA mechanoreceptors are normal in dreher mice, our data suggest that RGLCs provide critical non-cell autonomous growth support for the ascending axons of RA mechanoreceptors. Together, our work identifies a developmental mechanism specifically required for long-range spinal cord longitudinal axons.

摘要

脊髓纵轴突是我们身体中最长的轴突之一。然而，驱动这种超长距离轴突生长的机制在很大程度上还不清楚。我们发现，快速适应（RA）机械感受器的上升轴突与脊髓背柱中以前未描述的屋顶板衍生的放射状胶质样细胞（RGLC）紧密相邻，形成富含生长促进因子的过程网络。在缺乏 RGLC 的 dreher 突变小鼠中，上升 RA 机械感受器轴突分支的长度特异性减少，而其下降和侧支分支以及其他背柱和感觉通路则基本不受影响。由于 dreher 小鼠中 RA 机械感受器的数量和内在生长能力正常，我们的数据表明 RGLC 为 RA 机械感受器的上升轴突提供了关键的非细胞自主生长支持。总之，我们的工作确定了一种特定的发育机制，该机制是长距离脊髓纵轴突所必需的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8b21/6174691/06dc50b7c4f3/nihms-989114-f0001.jpg

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