重编程
神经科学
生物
体感系统
感觉系统
感觉神经元
周围神经损伤
转录因子
ATF3
神经损伤
再生(生物学)
电池类型
细胞生物学
细胞
基因表达
发起人
遗传学
基因
作者
William Renthal,Ivan Tochitsky,Lite Yang,Yung‐Chih Cheng,Emmy Li,Riki Kawaguchi,Daniel H. Geschwind,Clifford J. Woolf
出处
期刊:
[Cold Spring Harbor Laboratory]
日期:2019-11-16
被引量:55
摘要
Summary Primary somatosensory neurons are specialized to transmit specific types of sensory information through differences in cell size, myelination, and the expression of distinct receptors and ion channels, which together define their transcriptional and functional identity. By transcriptionally profiling sensory ganglia at single-cell resolution, we find that different somatosensory neuronal subtypes undergo a remarkably consistent and dramatic transcriptional response to peripheral nerve injury that both promotes axonal regeneration and suppresses cell identity. Successful axonal regeneration leads to a restoration of neuronal cell identity and the deactivation of the growth program. This injury-induced transcriptional reprogramming requires Atf3 , a transcription factor which is induced rapidly after injury and is necessary for axonal regeneration and functional recovery. While Atf3 and other injury-induced transcription factors are known for their role in reprogramming cell fate, their function in mature neurons is likely to facilitate major adaptive changes in cell function in response to damaging environmental stimuli.
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