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Cdyl 缺乏通过促进外周感觉神经元中 Kcnb1 转录来抑制神经元兴奋性和伤害感受。

Cdyl Deficiency Brakes Neuronal Excitability and Nociception through Promoting Kcnb1 Transcription in Peripheral Sensory Neurons.

机构信息

Neuroscience Research Institute and Department of Neurobiology, School of Basic Medical Sciences, Key Laboratory for Neuroscience, Ministry of Education/National Health Commission and State Key Laboratory of Natural and Biomimetic Drugs, Peking University, Beijing, 100083, China.

Institute of Military Cognitive and Brain Sciences, Academy of Military Medical Sciences, Beijing, 100039, China.

出版信息

Adv Sci (Weinh). 2022 Apr;9(10):e2104317. doi: 10.1002/advs.202104317. Epub 2022 Feb 4.

DOI:10.1002/advs.202104317
PMID:35119221
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8981457/
Abstract

Epigenetic modifications are involved in the onset, development, and maintenance of pain; however, the precise epigenetic mechanism underlying pain regulation remains elusive. Here it is reported that the epigenetic factor chromodomain Y-like (CDYL) is crucial for pain processing. Selective knockout of CDYL in sensory neurons results in decreased neuronal excitability and nociception. Moreover, CDYL facilitates histone 3 lysine 27 trimethylation (H3K27me3) deposition at the Kcnb1 intron region thus silencing voltage-gated potassium channel (K ) subfamily member K 2.1 transcription. Loss function of CDYL enhances total K and K 2.1 current density in dorsal root ganglia and knockdown of K 2.1 reverses the pain-related phenotypes of Cdyl deficiency mice. Furthermore, focal administration of a novel potent CDYL antagonist blunts nociception and attenuates neuropathic pain. These findings reveal that CDYL is a critical regulator of pain sensation and shed light on the development of novel analgesics targeting epigenetic mechanisms.

摘要

表观遗传修饰参与疼痛的发生、发展和维持;然而,疼痛调节的确切表观遗传机制仍难以捉摸。本文报道称,表观遗传因子染色质域 Y 样蛋白(CDYL)对疼痛处理至关重要。感觉神经元中 CDYL 的选择性敲除导致神经元兴奋性和痛觉降低。此外,CDYL 促进组蛋白 3 赖氨酸 27 三甲基化(H3K27me3)在 Kcnb1 内含子区域的沉积,从而沉默电压门控钾通道(K+)亚家族成员 K2.1 的转录。CDYL 的功能丧失会增强背根神经节中总 K+和 K2.1 电流密度,而 K2.1 的敲低则逆转了 Cdyl 缺陷小鼠的疼痛相关表型。此外,局部给予新型强效 CDYL 拮抗剂可减轻痛觉和减弱神经病理性疼痛。这些发现表明 CDYL 是疼痛感觉的关键调节因子,并为针对表观遗传机制的新型镇痛药的开发提供了线索。

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本文引用的文献

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Epigenetic restoration of voltage-gated potassium channel Kv1.2 alleviates nerve injury-induced neuropathic pain.电压门控钾通道 Kv1.2 的表观遗传修复缓解神经损伤诱导的神经性疼痛。
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