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表观遗传学参与奥沙利铂诱导的钾通道转录下调和超敏反应。

Epigenetics Involvement in Oxaliplatin-Induced Potassium Channel Transcriptional Downregulation and Hypersensitivity.

机构信息

Université Clermont Auvergne, Inserm UMR-U1107, Neuro-Dol, 28, pl. H.Dunant, F-63000, Clermont-Ferrand, France.

Institut Analgesia, Faculté de Médecine, BP38, F-63001, Clermont-Ferrand, France.

出版信息

Mol Neurobiol. 2021 Jul;58(7):3575-3587. doi: 10.1007/s12035-021-02361-6. Epub 2021 Mar 26.

DOI:10.1007/s12035-021-02361-6
PMID:33772465
Abstract

Peripheral neuropathy is the most frequent dose-limiting adverse effect of oxaliplatin. Acute pain symptoms that are induced or exacerbated by cold occur in almost all patients immediately following the first infusions. Evidence has shown that oxaliplatin causes ion channel expression modulations in dorsal root ganglia neurons, which are thought to contribute to peripheral hypersensitivity. Most dysregulated genes encode ion channels involved in cold and mechanical perception, noteworthy members of a sub-group of potassium channels of the K2P family, TREK and TRAAK. Downregulation of these K2P channels has been identified as an important tuner of acute oxaliplatin-induced hypersensitivity. We investigated the molecular mechanisms underlying this peripheral dysregulation in a murine model of neuropathic pain triggered by a single oxaliplatin administration. We found that oxaliplatin-mediated TREK-TRAAK downregulation, as well as downregulation of other K channels of the K2P and Kv families, involves a transcription factor known as the neuron-restrictive silencer factor (NRSF) and its epigenetic co-repressors histone deacetylases (HDACs). NRSF knockdown was able to prevent most of these K channel mRNA downregulation in mice dorsal root ganglion neurons as well as oxaliplatin-induced acute cold and mechanical hypersensitivity. Interestingly, pharmacological inhibition of class I HDAC reproduces the antinociceptive effects of NRSF knockdown and leads to an increased K channel expression in oxaliplatin-treated mice.

摘要

周围神经病变是奥沙利铂最常见的剂量限制不良反应。几乎所有患者在首次输注后立即出现由冷诱发或加重的急性疼痛症状。有证据表明,奥沙利铂引起背根神经节神经元中离子通道表达的调节,这被认为有助于外周敏化。大多数失调的基因编码参与冷和机械感觉的离子通道,钾通道 K2P 家族、TREK 和 TRAAK 的一个亚群的一些重要成员。这些 K2P 通道的下调已被确定为急性奥沙利铂诱导的超敏反应的重要调谐器。我们在由单次奥沙利铂给药引发的神经性疼痛的小鼠模型中研究了这种外周失调的分子机制。我们发现,奥沙利铂介导的 TREK-TRAAK 下调以及 K2P 和 Kv 家族的其他 K 通道的下调涉及一种称为神经元限制性沉默因子 (NRSF) 的转录因子及其表观遗传共抑制因子组蛋白去乙酰化酶 (HDACs)。NRSF 敲低能够防止小鼠背根神经节神经元中大多数这些 K 通道 mRNA 的下调以及奥沙利铂诱导的急性冷和机械超敏反应。有趣的是,I 类组蛋白去乙酰化酶的药理学抑制可重现 NRSF 敲低的抗伤害作用,并导致奥沙利铂处理的小鼠中 K 通道表达增加。

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