Kappa Opioid Receptor Activation Induces Epigenetic Silencing of Brain-Derived Neurotropic Factor via HDAC5 in Depression.

IF 4.1 3区医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

ACS Chemical Neuroscience Pub Date : 2024-09-18 Epub Date: 2024-08-27 DOI:10.1021/acschemneuro.4c00175

Anubhav Yadav, Shalini Dogra, Arun Kumar Boda, Poonam Kumari, Ajeet Kumar, Manish K Dash, Prem N Yadav

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Abstract

Treatment-resistant depression (TRD) occurs in almost 50% of the depressed patients. Central kappa opioid receptor (KOR) agonism has been demonstrated to induce depression and anxiety, while KOR antagonism alleviates depression-like symptoms in rodent models and TRD in clinical studies. Previously, we have shown that sustained KOR activation leads to a TRD-like phenotype in mice, and modulation of brain-derived neurotrophic factor (BDNF) expression in the prefrontal cortex (PFC) appears to be one of the molecular determinants of the antidepressant response. In the present study, we observed that sustained KOR activation by a selective agonist, U50488, selectively reduced the levels of Bdnf transcripts II, IV, and Bdnf CDS (protein-coding Exon IX) in the PFC and cultured primary cortical neurons, which was blocked by selective KOR antagonist, norbinaltorphimine. Considering the crucial role of epigenetic pathways in BDNF expression, we further investigated the role of various epigenetic markers in KOR-induced BDNF downregulation in mice. We observed that treatment with U50488 resulted in selective and specific downregulation of acetylation at the ninth lysine residue of the histone H3 protein (H3K9ac) and upregulation of histone deacetylase 5 (HDAC5) expression in the PFC. Further, using anti-H3K9ac and anti-HDAC5 antibodies in the chromatin immune precipitation assay, we detected decreased enrichment of H3K9ac and increased HDAC5 binding at Bdnf II and IV transcripts after U50488 treatment, which were blocked by a selective KOR antagonist, norbinaltorphimine. Further mechanistic studies using HDAC5 selective inhibitor, LMK235, in primary cortical neurons and adeno-associated viral shRNA-mediated HDAC5-knockdown in the PFC of mice demonstrated an essential role of HDAC5 in KOR-mediated reduction of Bdnf expression in the PFC and in depression-like symptoms in mice. These results suggest that KOR engages multiple pathways to induce depression-like symptoms in mice and provide novel insights into the mechanisms by which activation of KOR regulates major depressive disorders.

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在抑郁症中，Kappa 阿片受体激活通过 HDAC5 诱导脑源性神经营养因子的表观遗传沉默

近 50%的抑郁症患者会出现治疗耐受性抑郁症（TRD）。中枢卡巴阿片受体（KOR）激动可诱发抑郁和焦虑，而KOR拮抗可减轻啮齿类动物模型中的抑郁样症状和临床研究中的TRD。此前，我们已经证明，持续的 KOR 激活会导致小鼠出现类似 TRD 的表型，而前额叶皮质（PFC）中脑源性神经营养因子（BDNF）的表达调节似乎是抗抑郁反应的分子决定因素之一。在本研究中，我们观察到选择性激动剂 U50488 可选择性地持续激活 KOR，从而降低前额叶皮质和培养的初级皮质神经元中 Bdnf 转录本 II、IV 和 Bdnf CDS（编码外显子 IX）的水平，而选择性 KOR 拮抗剂诺比那吗啡可阻断这种作用。考虑到表观遗传途径在 BDNF 表达中的关键作用，我们进一步研究了各种表观遗传标记在 KOR 诱导的小鼠 BDNF 下调中的作用。我们观察到，用 U50488 治疗会导致组蛋白 H3 蛋白第九个赖氨酸残基乙酰化（H3K9ac）的选择性和特异性下调，并上调 PFC 中组蛋白去乙酰化酶 5（HDAC5）的表达。此外，在染色质免疫沉淀试验中使用抗 H3K9ac 和抗 HDAC5 抗体，我们检测到在 U50488 处理后，H3K9ac 的富集减少，HDAC5 与 Bdnf II 和 IV 转录本的结合增加，而选择性 KOR 拮抗剂诺比那吗啡可阻断这种结合。使用 HDAC5 选择性抑制剂 LMK235 对原发性皮质神经元和腺相关病毒 shRNA 介导的 HDAC5 在小鼠 PFC 中的敲除进行的进一步机理研究表明，HDAC5 在 KOR 介导的 PFC 中 Bdnf 表达减少和小鼠抑郁症状中起着至关重要的作用。这些结果表明，KOR通过多种途径诱导小鼠出现类似抑郁症的症状，并为KOR的激活调控重度抑郁障碍的机制提供了新的见解。

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来源期刊

ACS Chemical Neuroscience BIOCHEMISTRY & MOLECULAR BIOLOGY-CHEMISTRY, MEDICINAL

CiteScore

9.20

自引率

4.00%

发文量

323

审稿时长

1 months

期刊介绍： ACS Chemical Neuroscience publishes high-quality research articles and reviews that showcase chemical, quantitative biological, biophysical and bioengineering approaches to the understanding of the nervous system and to the development of new treatments for neurological disorders. Research in the journal focuses on aspects of chemical neurobiology and bio-neurochemistry such as the following: Neurotransmitters and receptors Neuropharmaceuticals and therapeutics Neural development—Plasticity, and degeneration Chemical, physical, and computational methods in neuroscience Neuronal diseases—basis, detection, and treatment Mechanism of aging, learning, memory and behavior Pain and sensory processing Neurotoxins Neuroscience-inspired bioengineering Development of methods in chemical neurobiology Neuroimaging agents and technologies Animal models for central nervous system diseases Behavioral research