随着年龄的增长，投射到听觉丘脑的下丘细胞逐渐被神经周围网络所包围。

Inferior collicular cells that project to the auditory thalamus are increasingly surrounded by perineuronal nets with age.

机构信息

Department of Anatomy and Neurobiology, Northeast Ohio Medical University, Rootstown, OH USA.

出版信息

Neurobiol Aging. 2021 Sep;105:1-15. doi: 10.1016/j.neurobiolaging.2021.04.001. Epub 2021 Apr 21.

DOI:10.1016/j.neurobiolaging.2021.04.001

PMID:34004491

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8338758/

Abstract

The age-related loss of GABA in the inferior colliculus (IC) likely plays a role in the development of age-related hearing loss. Perineuronal nets (PNs), specialized aggregates of extracellular matrix, increase with age in the IC. PNs, associated with GABAergic neurotransmission, can stabilize synapses and inhibit structural plasticity. We sought to determine whether PN expression increased on GABAergic and non-GABAergic IC cells that project to the medial geniculate body (MG). We used retrograde tract-tracing in combination with immunohistochemistry for glutamic acid decarboxylase and Wisteria floribunda agglutinin across three age groups of Fischer Brown Norway rats. Results demonstrate that PNs increase with age on lemniscal and non-lemniscal IC-MG cells, however two key differences exist. First, PNs increased on non-lemniscal IC-MG cells during middle-age, but not until old age on lemniscal IC-MG cells. Second, increases of PNs on lemniscal IC-MG cells occurred on non-GABAergic cells rather than on GABAergic cells. These results suggest that synaptic stabilization and reduced plasticity likely occur at different ages on a subset of the IC-MG pathway.

摘要

下丘脑中与年龄相关的 GABA 丧失可能在年龄相关性听力损失的发展中起作用。周围神经网 (PNs) 是细胞外基质的特殊聚集物，在 IC 中随年龄增长而增加。与 GABA 能神经传递有关的 PNs 可以稳定突触并抑制结构可塑性。我们试图确定 PN 表达是否在投射到内侧膝状体 (MG) 的 GABA 能和非 GABA 能 IC 细胞上增加。我们使用逆行束追踪技术，结合谷氨酸脱羧酶和金雀花凝集素的免疫组织化学，在三个年龄组的 Fischer Brown Norway 大鼠中进行研究。结果表明，PNs 在有髓和无髓 IC-MG 细胞上随年龄增长而增加，但存在两个关键差异。首先，PNs 在中年时在非有髓 IC-MG 细胞上增加，但在老年时在有髓 IC-MG 细胞上才增加。其次，PNs 在有髓 IC-MG 细胞上的增加发生在非 GABA 能细胞上，而不是 GABA 能细胞上。这些结果表明，在 IC-MG 通路的一部分细胞上，突触稳定和减少可塑性可能在不同的年龄发生。

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