Tianwen Huang, Yangyang He, Ruijuan Cheng, Qiuping Zhang, Xiang Zhong, Kenji Hashimoto, Yi Liu, Yaoyu Pu
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Remarkably, a single dose of ketamine significantly reduced these symptoms and pathological changes. Interestingly, the beneficial effects of ketamine on the kidneys, other organs, and depression-like behaviors, were reversed by the tropomyosin receptor kinase B (TrkB) inhibitor ANA-12. Western blot analysis revealed the involvement of the TrkB and ERK (extracellular signal-regulated kinase)-CREB (cAMP response element binding protein) signaling pathway. Additionally, metabolomics analysis indicated that blood metabolites, such as C16-ceramide, may contribute to the effects of ketamine in this model. These findings suggest that cisplatin-induced nephrotoxicity in AKI mice contributes to depression-like behaviors, and ketamine can alleviate both kidney damage and depression-like symptoms by modulating the TrkB and ERK-CREB signaling pathways, as well as altering blood metabolites. However, the role of the kidney-brain axis in these depression-like behaviors remains unclear. 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引用次数: 0
摘要
急性肾损伤(AKI)是一种以尿量减少为特征的严重疾病,通常伴有抑郁症等精神症状。然而,目前针对 AKI 及其相关抑郁症状的药物治疗非常有限。在这项研究中,我们调查了顺铂诱导的小鼠 AKI 是否会导致抑郁样行为,以及氯胺酮是否能减轻肾损伤和这些行为。顺铂诱导的 AKI 小鼠表现出肌酐和尿素水平升高、肾脏损伤、肾损伤分子-1 蛋白增加以及肝脏、结肠和脾脏的病理变化。他们还表现出类似抑郁的行为,前额叶皮层的突触蛋白表达减少。值得注意的是,单剂量氯胺酮能明显减轻这些症状和病理变化。有趣的是,氯胺酮对肾脏、其他器官和抑郁样行为的有益影响被肌球蛋白受体激酶B(TrkB)抑制剂ANA-12逆转。Western印迹分析显示,TrkB和ERK(细胞外信号调节激酶)-CREB(cAMP反应元件结合蛋白)信号通路参与其中。此外,代谢组学分析表明,血液代谢物(如 C16-神经酰胺)可能有助于氯胺酮在该模型中的作用。这些研究结果表明,顺铂诱导的AKI小鼠肾毒性会导致抑郁样行为,而氯胺酮可以通过调节TrkB和ERK-CREB信号通路以及改变血液代谢物来减轻肾损伤和抑郁样症状。然而,肾-脑轴在这些抑郁样行为中的作用仍不清楚。此外,氯胺酮可能具有治疗肾脏疾病(如 AKI)以及相关抑郁症状的潜力。
Ketamine attenuates kidney damage and depression-like behaviors in mice with cisplatin-induced acute kidney injury.
Acute kidney injury (AKI) is a serious condition characterized by decreased urine output, often accompanied by psychiatric symptoms like depression. However, there are limited pharmacological treatments available for AKI and its associated depressive symptoms. In this study, we investigated whether cisplatin-induced AKI in mice leads to depression-like behaviors and whether ketamine could alleviate both the kidney injury and these behaviors. Mice with cisplatin-induced AKI exhibited elevated levels of creatinine and urea, kidney damage, increased kidney injury molecule-1 protein, and pathological changes in the liver, colon, and spleen. They also showed depression-like behaviors and reduced expression of synaptic proteins in the prefrontal cortex. Remarkably, a single dose of ketamine significantly reduced these symptoms and pathological changes. Interestingly, the beneficial effects of ketamine on the kidneys, other organs, and depression-like behaviors, were reversed by the tropomyosin receptor kinase B (TrkB) inhibitor ANA-12. Western blot analysis revealed the involvement of the TrkB and ERK (extracellular signal-regulated kinase)-CREB (cAMP response element binding protein) signaling pathway. Additionally, metabolomics analysis indicated that blood metabolites, such as C16-ceramide, may contribute to the effects of ketamine in this model. These findings suggest that cisplatin-induced nephrotoxicity in AKI mice contributes to depression-like behaviors, and ketamine can alleviate both kidney damage and depression-like symptoms by modulating the TrkB and ERK-CREB signaling pathways, as well as altering blood metabolites. However, the role of the kidney-brain axis in these depression-like behaviors remains unclear. Furthermore, ketamine may have therapeutic potential for treating kidney diseases such as AKI, along with associated depressive symptoms.
期刊介绍:
Psychiatry has suffered tremendously by the limited translational pipeline. Nobel laureate Julius Axelrod''s discovery in 1961 of monoamine reuptake by pre-synaptic neurons still forms the basis of contemporary antidepressant treatment. There is a grievous gap between the explosion of knowledge in neuroscience and conceptually novel treatments for our patients. Translational Psychiatry bridges this gap by fostering and highlighting the pathway from discovery to clinical applications, healthcare and global health. We view translation broadly as the full spectrum of work that marks the pathway from discovery to global health, inclusive. The steps of translation that are within the scope of Translational Psychiatry include (i) fundamental discovery, (ii) bench to bedside, (iii) bedside to clinical applications (clinical trials), (iv) translation to policy and health care guidelines, (v) assessment of health policy and usage, and (vi) global health. All areas of medical research, including — but not restricted to — molecular biology, genetics, pharmacology, imaging and epidemiology are welcome as they contribute to enhance the field of translational psychiatry.