The Rheb–mTOR Pathway Is Upregulated in Reactive Astrocytes of the Injured Spinal Cord

雷氏菌 PI3K/AKT/mTOR通路 星形胶质细胞 细胞生物学 生物 脊髓损伤 星形胶质增生 轴突 胶质瘢痕 脊髓 神经科学 信号转导 中枢神经系统 mTORC1型
作者
Simone Codeluppi,Camilla I. Svensson,Michael P. Hefferan,Fatima Valencia,Morgan D. Silldorff,Masakatsu Oshiro,Martin Maršala,Elena B. Pasquale
出处
期刊:The Journal of Neuroscience [Society for Neuroscience]
卷期号:29 (4): 1093-1104 被引量:150
标识
DOI:10.1523/jneurosci.4103-08.2009
摘要

Astrocytes in the CNS respond to tissue damage by becoming reactive. They migrate, undergo hypertrophy, and form a glial scar that inhibits axon regeneration. Therefore, limiting astrocytic responses represents a potential therapeutic strategy to improve functional recovery. It was recently shown that the epidermal growth factor (EGF) receptor is upregulated in astrocytes after injury and promotes their transformation into reactive astrocytes. Furthermore, EGF receptor inhibitors were shown to enhance axon regeneration in the injured optic nerve and promote recovery after spinal cord injury. However, the signaling pathways involved were not elucidated. Here we show that in cultures of adult spinal cord astrocytes EGF activates the mTOR pathway, a key regulator of astrocyte physiology. This occurs through Akt-mediated phosphorylation of the GTPase-activating protein Tuberin, which inhibits Tuberin's ability to inactivate the small GTPase Rheb. Indeed, we found that Rheb is required for EGF-dependent mTOR activation in spinal cord astrocytes, whereas the Ras–MAP kinase pathway does not appear to be involved. Moreover, astrocyte growth and EGF-dependent chemoattraction were inhibited by the mTOR-selective drug rapamycin. We also detected elevated levels of activated EGF receptor and mTOR signaling in reactive astrocytes in vivo in an ischemic model of spinal cord injury. Furthermore, increased Rheb expression likely contributes to mTOR activation in the injured spinal cord. Interestingly, injured rats treated with rapamycin showed reduced signs of reactive gliosis, suggesting that rapamycin could be used to harness astrocytic responses in the damaged nervous system to promote an environment more permissive to axon regeneration.

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