毒蕈碱型乙酰胆碱受体信号通过蛋白激酶 C 调节伏隔核电压门控钾通道 KCNQ2 的磷酸化，从而参与厌恶学习。

Muscarinic signaling regulates voltage-gated potassium channel KCNQ2 phosphorylation in the nucleus accumbens via protein kinase C for aversive learning.

机构信息

Department of Cell Pharmacology, Nagoya University Graduate School of Medicine, Nagoya, Japan.

Research Project for Neural and Tumor Signaling, Institute for Comprehensive Medical Science, Fujita Health University, Toyoake, Aichi, Japan.

出版信息

J Neurochem. 2022 Feb;160(3):325-341. doi: 10.1111/jnc.15555. Epub 2021 Dec 18.

DOI:10.1111/jnc.15555

PMID:34878647

Abstract

The nucleus accumbens (NAc) plays critical roles in emotional behaviors, including aversive learning. Aversive stimuli such as an electric foot shock increase acetylcholine (ACh) in the NAc, and muscarinic signaling appears to increase neuronal excitability and aversive learning. Muscarinic signaling inhibits the voltage-dependent potassium KCNQ current which regulates neuronal excitability, but the regulatory mechanism has not been fully elucidated. Phosphorylation of KCNQ2 at threonine 217 (T217) and its inhibitory effect on channel activity were predicted. However, whether and how muscarinic signaling phosphorylates KCNQ2 in vivo remains unclear. Here, we found that PKC directly phosphorylated KCNQ2 at T217 in vitro. Carbachol and a muscarinic M1 receptor (M1R) agonist facilitated KCNQ2 phosphorylation at T217 in NAc/striatum slices in a PKC-dependent manner. Systemic administration of the cholinesterase inhibitor donepezil, which is commonly used to treat dementia, and electric foot shock to mice induced the phosphorylation of KCNQ2 at T217 in the NAc, whereas phosphorylation was suppressed by an M1R antagonist. Conditional deletion of Kcnq2 in the NAc enhanced electric foot shock induced aversive learning. Our findings indicate that muscarinic signaling induces the phosphorylation of KCNQ2 at T217 via PKC activation for aversive learning.

摘要

伏隔核（NAc）在情感行为中发挥着关键作用，包括厌恶学习。厌恶刺激，如电击足部，会增加 NAc 中的乙酰胆碱（ACh），而毒蕈碱信号似乎会增加神经元兴奋性和厌恶学习。毒蕈碱信号抑制调节神经元兴奋性的电压依赖性钾 KCNQ 电流，但该调节机制尚未完全阐明。预测 KCNQ2 在苏氨酸 217 （T217）处发生磷酸化及其对通道活性的抑制作用。然而，毒蕈碱信号是否以及如何在体内使 KCNQ2 磷酸化仍然不清楚。在这里，我们发现 PKC 可在体外直接使 KCNQ2 在 T217 处磷酸化。Carbachol 和毒蕈碱 M1 受体（M1R）激动剂以 PKC 依赖性方式促进 NAc/striatum 切片中 KCNQ2 在 T217 处的磷酸化。胆碱酯酶抑制剂多奈哌齐的全身给药，常用于治疗痴呆症，以及对小鼠的电击足部，会诱导 NAc 中 KCNQ2 在 T217 处发生磷酸化，而 M1R 拮抗剂则抑制了磷酸化。在 NAc 中条件性缺失 Kcnq2 会增强电击足部引起的厌恶学习。我们的研究结果表明，毒蕈碱信号通过 PKC 激活诱导 KCNQ2 在 T217 处发生磷酸化，从而促进厌恶学习。

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毒蕈碱型乙酰胆碱受体信号通过蛋白激酶 C 调节伏隔核电压门控钾通道 KCNQ2 的磷酸化，从而参与厌恶学习。

Muscarinic signaling regulates voltage-gated potassium channel KCNQ2 phosphorylation in the nucleus accumbens via protein kinase C for aversive learning.

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