Environmental enrichment increases progenitor cell survival in the dentate gyrus following lateral fluid percussion injury

Molecular Brain Research Pub Date : 2005-11-30 DOI:10.1016/j.molbrainres.2005.08.011

Lindsey J. Gaulke , Philip J. Horner , Andrew J. Fink , Courtney L. McNamara , Ramona R. Hicks

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引用次数: 58

Abstract

Neurons in the hilus of the dentate gyrus are lost following a lateral fluid percussion injury. Environmental enrichment is known to increase neurogenesis in the dentate in intact rats, suggesting that it might also do so following fluid percussion injury, and potentially provide replacements for lost neurons. We report that 1 h of daily environmental enrichment for 3 weeks increased the number of progenitor cells in the dentate following fluid percussion injury, but only on the ipsilesional side. In the dentate granule cell layer, but not the hilus, most progenitors had a neuronal phenotype. The rate of on going cell proliferation was similar across groups. Collectively, these results suggest that the beneficial effects of environmental enrichment on behavioral recovery following FP injury are not attributable to neuronal replacement in the hilus but may be related to increased neurogenesis in the granule cell layer.

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环境富集增加齿状回侧液冲击损伤后祖细胞存活

齿状回门部的神经元在外侧液体撞击损伤后丢失。已知环境富集可增加完整大鼠齿状神经元的神经发生，这表明它也可能在液体冲击损伤后起作用，并可能为丢失的神经元提供替代品。我们报道，连续3周每天1小时的环境富集可增加液体冲击损伤后齿状细胞中祖细胞的数量，但仅在同伤侧。在齿状颗粒细胞层，而不是门部，大多数祖细胞具有神经元表型。各组间持续细胞增殖率相似。综上所述，这些结果表明，环境富集对FP损伤后行为恢复的有益作用并不归因于门部的神经元替代，而可能与颗粒细胞层神经发生的增加有关。

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Molecular Brain Research

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