Ketamine Prevents Inflammation-Induced Reduction of Human Hippocampal Neurogenesis via Inhibiting the Production of Neurotoxic Metabolites of the Kynurenine Pathway.

IF 4.5 2区医学 Q1 CLINICAL NEUROLOGY International Journal of Neuropsychopharmacology Pub Date : 2024-10-01 DOI:10.1093/ijnp/pyae041

Gargi Mandal, Madeline Kirkpatrick, Silvia Alboni, Nicole Mariani, Carmine M Pariante, Alessandra Borsini

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Abstract

Background: Understanding the precise mechanisms of ketamine is crucial for replicating its rapid antidepressant effects without inducing psychomimetic changes. Here, we explore whether the antidepressant-like effects of ketamine enantiomers are underscored by protection against cytokine-induced reductions in hippocampal neurogenesis and activation of the neurotoxic kynurenine pathway in our well-established in vitro model of depression in a dish.

Methods: We used the fetal hippocampal progenitor cell line (HPC0A07/03C) to investigate ketamine's impact on cytokine-induced reductions in neurogenesis in vitro. Cells were treated with interleukin- 1beta (IL-1b) (10 ng/mL) or IL-6 (50 pg/mL), alone or in combination with ketamine enantiomers arketamine (R-ketamine, 400 nM) or esketamine (S-ketamine, 400 nM) or antidepressants sertraline (1 mM) or venlafaxine (1 mM).

Results: Resembling the effect of antidepressants, both ketamine enantiomers prevented IL-1b- and IL-6-induced reduction in neurogenesis and increase in apoptosis. This was mediated by inhibition of IL-1b-induced production of IL-2 and IL-13 by R-ketamine and of IL-1b-induced tumor necrosis factor-alpha by S-ketamine. Likewise, R-ketamine inhibited IL-6-induced production of IL-13, whereas S-ketamine inhibited IL-6-induced IL-1b and IL-8. Moreover, both R- and S-ketamine prevented IL-1b-induced increases in indoleamine 2,3-dioxygenase expression as well as kynurenine production, which in turn was shown to mediate the detrimental effects of IL-1b on neurogenesis and apoptosis. In contrast, neither R- nor S-ketamine prevented IL-6-induced kynurenine pathway activation.

Conclusions: Results suggest that R- and S-ketamine have pro-neurogenic and anti-inflammatory properties; however, this is mediated by inhibition of the kynurenine pathway only in the context of IL-1b. Overall, this study enhances our understanding of the mechanisms underlying ketamine's antidepressant effects in the context of different inflammatory phenotypes, ultimately leading to the development of more effective, personalized therapeutic approaches for patients suffering from depression.

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氯胺酮通过抑制神经毒性代谢产物犬尿氨酸途径的产生，防止炎症诱导的人类海马神经发生减少。

背景：了解氯胺酮的确切机制对于复制其快速抗抑郁效果而不诱发精神拟态变化至关重要。在此，我们将在已建立的体外抑郁模型中，探讨氯胺酮对映体的抗抑郁样作用是否通过防止细胞因子诱导的海马神经发生减少和神经毒性犬尿氨酸通路的激活而得到强调：我们使用胎儿海马祖细胞系（HPC0A07/03C）来研究氯胺酮对细胞因子诱导的体外神经发生减少的影响。用白细胞介素1β（IL-1b）（10纳克/毫升）或IL-6（50皮克/毫升）处理细胞，单独或与氯胺酮对映体、氯胺酮（R-氯胺酮，400毫微克）或氯胺酮（S-氯胺酮，400毫微克）或抗抑郁药舍曲林（1毫摩尔）或文拉法辛（1毫摩尔）联合使用：与抗抑郁药的作用相似，两种氯胺酮对映体都能防止IL-1b和IL-6诱导的神经发生减少和细胞凋亡增加。R-氯胺酮抑制了IL-1b诱导的IL-2和IL-13的产生，S-氯胺酮抑制了IL-1b诱导的肿瘤坏死因子-α（TNF-a）的产生。同样，R-氯胺酮能抑制 IL-6 诱导的 IL-13 的产生，而 S-氯胺酮则能抑制 IL-6 诱导的 IL-1b 和 IL-8。此外，R-和S-氯胺酮都能阻止IL-1b诱导的吲哚胺2,3-二氧化酶（IDO）表达的增加以及犬尿氨酸的产生，而犬尿氨酸反过来又能介导IL-1b对神经发生和细胞凋亡的不利影响。相比之下，R-和S-氯胺酮都不能阻止IL-6诱导的犬尿氨酸通路激活：结论：研究结果表明，R-和S-氯胺酮具有促进神经发生和抗炎的特性，但这仅在IL-1b的情况下通过抑制犬尿氨酸通路来实现。总之，这项研究加深了我们对氯胺酮在不同炎症表型下的抗抑郁作用机制的了解，最终将为抑郁症患者开发出更有效的个性化治疗方法。

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来源期刊

International Journal of Neuropsychopharmacology 医学-精神病学

CiteScore

8.40

自引率

2.10%

发文量

230

审稿时长

4-8 weeks

期刊介绍： The central focus of the journal is on research that advances understanding of existing and new neuropsychopharmacological agents including their mode of action and clinical application or provides insights into the biological basis of psychiatric disorders and thereby advances their pharmacological treatment. Such research may derive from the full spectrum of biological and psychological fields of inquiry encompassing classical and novel techniques in neuropsychopharmacology as well as strategies such as neuroimaging, genetics, psychoneuroendocrinology and neuropsychology.