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Merck
  • Histone methyltransferase Ezh2 coordinates mammalian axon regeneration via regulation of key regenerative pathways.

Histone methyltransferase Ezh2 coordinates mammalian axon regeneration via regulation of key regenerative pathways.

The Journal of clinical investigation (2023-11-28)
Xue-Wei Wang, Shu-Guang Yang, Ming-Wen Hu, Rui-Ying Wang, Chi Zhang, Anish R Kosanam, Arinze J Ochuba, Jing-Jing Jiang, Ximei Luo, Yun Guan, Jiang Qian, Chang-Mei Liu, Feng-Quan Zhou
摘要

Current treatments for neurodegenerative diseases and neural injuries face major challenges, primarily due to the diminished regenerative capacity of neurons in the mammalian CNS as they mature. Here, we investigated the role of Ezh2, a histone methyltransferase, in regulating mammalian axon regeneration. We found that Ezh2 declined in the mouse nervous system during maturation but was upregulated in adult dorsal root ganglion neurons following peripheral nerve injury to facilitate spontaneous axon regeneration. In addition, overexpression of Ezh2 in retinal ganglion cells in the CNS promoted optic nerve regeneration via both histone methylation-dependent and -independent mechanisms. Further investigation revealed that Ezh2 fostered axon regeneration by orchestrating the transcriptional silencing of genes governing synaptic function and those inhibiting axon regeneration, while concurrently activating various factors that support axon regeneration. Notably, we demonstrated that GABA transporter 2, encoded by Slc6a13, acted downstream of Ezh2 to control axon regeneration. Overall, our study underscores the potential of modulating chromatin accessibility as a promising strategy for promoting CNS axon regeneration.

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Roche
cOmplete Mini蛋白酶抑制剂Cocktail, Tablets provided in a glass vial
Sigma-Aldrich
抗 β-肌动蛋白抗体,小鼠单克隆, clone AC-15, purified from hybridoma cell culture
Sigma-Aldrich
抗-GAPDH抗体,小鼠单克隆 小鼠抗, clone GAPDH-71.1, purified from hybridoma cell culture