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损伤或周围神经移植对成年大鼠脑内GAP - 43上调的影响:一项原位杂交和免疫细胞化学研究。

The effects of a lesion or a peripheral nerve graft on GAP-43 upregulation in the adult rat brain: an in situ hybridization and immunocytochemical study.

作者信息

Vaudano E, Campbell G, Anderson P N, Davies A P, Woolhead C, Schreyer D J, Lieberman A R

机构信息

Department of Anatomy and Developmental Biology, University College London, United Kingdom.

出版信息

J Neurosci. 1995 May;15(5 Pt 1):3594-611. doi: 10.1523/JNEUROSCI.15-05-03594.1995.

Abstract

We have sought to determine (1) if thalamic neurons upregulate the growth associated protein GAP-43 as a response to injury, or if a peripheral nerve graft is required to induce, enhance or sustain such a response, and (2) if thalamic neurons with different regenerative potentials also display different GAP-43 responses. Levels of GAP-43 protein (detected by LM and EM immunohistochemistry) and of GAP-43 mRNA (detected by in situ hybridization) were compared in the thalamus of adult rats between 1 d and 180 d after making a stab lesion or after implanting a peripheral nerve autograft. Stab injury is a sufficient stimulus to cause a transient upregulation in GAP-43 expression by neurons in the thalamus (both around the graft tip and in particular in the thalamic reticular nucleus) in the first week after injury but this response is both prolonged, and enhanced in the presence of a peripheral nerve graft. In addition, we demonstrate directly, by double labelling, that neurons of the thalamic reticular nucleus displaying high levels of the mRNA for GAP-43, have axons regenerating in the distal portion of the graft. These findings lend direct support to the hypothesis that upregulation of the GAP-43 gene is essential for prolonged regenerative axonal growth. We also demonstrate GAP-43 protein in graft Schwann cells and in brain astrocytes close to the site of graft implantation.

摘要

我们试图确定

(1)丘脑神经元是否会上调生长相关蛋白GAP - 43以响应损伤,或者是否需要外周神经移植来诱导、增强或维持这种反应;(2)具有不同再生潜能的丘脑神经元是否也表现出不同的GAP - 43反应。在成年大鼠制作刺伤损伤或植入外周神经自体移植后1天至180天期间,比较丘脑内GAP - 43蛋白水平(通过光镜和电镜免疫组织化学检测)和GAP - 43 mRNA水平(通过原位杂交检测)。刺伤损伤是一种足够的刺激,可导致损伤后第一周丘脑神经元(移植尖端周围,特别是丘脑网状核中的神经元)GAP - 43表达短暂上调,但在有外周神经移植的情况下,这种反应会延长且增强。此外,我们通过双重标记直接证明,丘脑网状核中显示高水平GAP - 43 mRNA的神经元,其轴突在移植远端再生。这些发现直接支持了GAP - 43基因上调对于延长轴突再生生长至关重要的假说。我们还在移植的雪旺细胞和移植植入部位附近的脑星形胶质细胞中检测到了GAP - 43蛋白。

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