在大鼠的大脑皮层刺伤之前暴露于环境富集减弱了伤后星形胶质细胞的反应。

Neuron glia biology Pub Date : 2011-05-01 Epub Date: 2012-07-06 DOI:10.1017/S1740925X12000099
Ximena A Lanosa, Ignacio Santacroce, Jorge A Colombo
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引用次数: 7

摘要

研究了大鼠损伤前暴露于环境富集(EE)条件下,参与脑损伤后反应性星形胶质细胞成分的调节。为此,我们在成年大鼠的视觉大脑皮层上放置皮质刺伤后,评估了GFAP、vimentin、EAAT1和ezrin在病灶周围区%免疫反应(IR)面积的变化。在出生后发育期间暴露于EE的动物组中,病灶周围皮层的gmap - ir反应性星形细胞增生明显降低。这种GFAP-IR反应似乎与现有的星形胶质细胞有关,因为在分析的病灶周围皮层中没有发现BrdU和内源性ki -67标记的核。应激条件下大鼠视觉皮层ezrin-IR区域的增加提示新突触的形成或星形胶质细胞参与现有突触的增强。未发现EE对EAAT1-或vimentin-IR区域有影响。结果表明,在损伤前暴露于EE条件会减弱大鼠病灶周围皮层的脑后星形胶质细胞gmap -反应。这种减弱的脑后星形胶质细胞gmap反应是否促进或不促进对皮质神经的保护作用仍有待于未来的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exposure to environmental enrichment prior to a cerebral cortex stab wound attenuates the postlesional astroglia response in rats.

Modulation of astroglial components involved in reactive postlesional responses in the rat cerebral cortex was analyzed following exposure to environmental enrichment (EE) condition prior to injury. For this purpose, changes in % immunoreactive (IR) area of GFAP, vimentin, EAAT1 and ezrin were evaluated in the perilesional zone after placing a cortical stab wound in the visual cerebral cortex of adult rats. GFAP-IR postlesional reactive astrocytosis in the perilesional cortex was significantly lower in the animal group exposed to EE during postnatal development. This GFAP-IR reaction seems to be associated with existing astroglia, because neither BrdU- nor endogenous Ki-67-labeled nuclei were found in the perilesional cortex analyzed. Increased ezrin-IR area in the visual cortex of rats exposed to EE condition suggests the formation of new synapses or the enhancement of astroglial involvement in the existing ones. No effects of EE were found on either EAAT1- or vimentin-IR area. Results suggest that exposure to EE conditions prior to injury attenuates the postlesional astroglia GFAP-response in the perilesional cortex of rats. Whether this attenuated postlesional astroglia GFAP-response promotes or not protective effects on the cortical neuropil remains to be explored in futures studies.

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Neuron glia biology
Neuron glia biology 医学-神经科学
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