Depression like-behavior and memory loss induced by methylglyoxal is associated with tryptophan depletion and oxidative stress: a new in vivo model of neurodegeneration.

IF 4.3 2区 生物学 Q1 BIOLOGY
Md Samsuzzaman, Seong-Min Hong, Jae Hyuk Lee, Hyunjun Park, Keun-A Chang, Hyun-Bum Kim, Myoung Gyu Park, Hyeyoon Eo, Myung Sook Oh, Sun Yeou Kim
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引用次数: 0

Abstract

Background: Depression and memory loss are prevalent neurodegenerative disorders, with diabetic patients facing an elevated risk of brain dysfunction. Methylglyoxal (MGO) formation, which is heightened in diabetes owing to hyperglycemia and gut dysbiosis, may serve as a critical link between diabetes and brain diseases. Despite the high prevalence of MGO, the precise mechanisms underlying MGO-induced depression and memory loss remain unclear.

Results: We investigated the effect of MGO stress on depression like-behavior and memory loss to elucidate the potential interplay between MGO-induced tryptophan (Trp) metabolism impairment and oxidative stress in the brain. It demonstrates that MGO induces depression-like behavior in mice, as confirmed by the OFT, TST, FST, SPT, and EPM behavioral tests. MGO led to the depletion of Trp and related neurotransmitters as 5-HT, EPI, and DA in the mouse brain. Additionally, MGO reduced the cell count in the DG, CA1, and CA3 hippocampal regions and modulated TPH2 levels in the brain. Notably, co-treatment with MGO and Trp mirrored the effects observed after Trp-null treatment in neurons, including reduced TPH1 and TPH2 levels and inhibition of neuronal outgrowth. Furthermore, MGO significantly altered the expression of key proteins associated with neurodegeneration, such as p-Tau, p-GSK-3β, APP, oAβ, BDNF, NGF, and p-TrkB. Concurrently, MGO activated MAPKs through ROS induction, triggering a redox imbalance by downregulating Nrf-2, Ho-1, TXNRD1, Trx, Sirt-3, and Sirt-5 expression levels, NAD+, and CAT activity in the mouse brain. This led to an accelerated neuroinflammatory response, as evidenced by increased expression of Iba-1, p-NF-κB, and the secretion of IL-6 and TNF-α. Importantly, Trp treatment ameliorated MGO-induced depression like-behavior and memory loss in mice and markedly mitigated increased expression of p-Tau, APP, p-ERK1/2, p-pJNK, and p-NF-κB in the brain. Likewise, Trp treatment also induced the expression of MGO detoxifying factors GLO-I and GLO-II and CAT activity, suggesting the induction of an antioxidant system and reduced inflammation by inhibiting IL-6 and TNF-α secretion.

Conclusions: Our data revealed that MGO-induced depression like-behavior and memory deficits resulted from disturbances in Trp, 5-HT, BDNF, and NGF levels, increased p-Tau and APP expression, neuroinflammation, and impaired redox status (Nrf-2/Ho-1/TXNRD1/Sirt3/5) in the brain.

甲基乙二醛诱发的类似抑郁症的行为和记忆丧失与色氨酸耗竭和氧化应激有关:一种新的体内神经变性模型。
背景:抑郁症和记忆力减退是常见的神经退行性疾病,糖尿病患者面临脑功能障碍的风险更高。由于高血糖和肠道菌群失调,糖尿病患者体内的甲基乙二酸(MGO)形成增加,这可能是糖尿病与脑部疾病之间的重要联系。尽管MGO的发病率很高,但MGO诱发抑郁和记忆丧失的确切机制仍不清楚:我们研究了 MGO 应激对类似抑郁行为和记忆力减退的影响,以阐明 MGO 诱导的色氨酸(Trp)代谢障碍与大脑氧化应激之间的潜在相互作用。研究表明,MGO 会诱导小鼠出现类似抑郁的行为,这一点已在 OFT、TST、FST、SPT 和 EPM 行为测试中得到证实。MGO 导致小鼠大脑中 Trp 和相关神经递质(如 5-羟色胺、EPI 和 DA)的消耗。此外,MGO还减少了DG、CA1和CA3海马区的细胞数量,并调节了大脑中TPH2的水平。值得注意的是,MGO和Trp联合处理反映了Trp无效处理后在神经元中观察到的效应,包括降低TPH1和TPH2水平以及抑制神经元生长。此外,MGO 还明显改变了与神经变性相关的关键蛋白的表达,如 p-Tau、p-GSK-3β、APP、oAβ、BDNF、NGF 和 p-TrkB。同时,MGO 通过诱导 ROS 激活 MAPKs,通过下调小鼠大脑中 Nrf-2、Ho-1、TXNRD1、Trx、Sirt-3 和 Sirt-5 的表达水平、NAD+ 和 CAT 活性,引发氧化还原失衡。这导致神经炎症反应加速,表现为 Iba-1、p-NF-κB 的表达以及 IL-6 和 TNF-α 的分泌增加。重要的是,Trp 治疗可改善 MGO 诱导的小鼠抑郁样行为和记忆丧失,并显著减轻大脑中 p-Tau、APP、p-ERK1/2、p-pJNK 和 p-NF-κB 的表达增加。同样,Trp处理还能诱导MGO解毒因子GLO-I和GLO-II的表达以及CAT的活性,这表明Trp能诱导抗氧化系统,并通过抑制IL-6和TNF-α的分泌来减少炎症:我们的数据显示,MGO诱导的类似抑郁症的行为和记忆缺陷是由于大脑中Trp、5-羟色胺、BDNF和NGF水平紊乱、p-Tau和APP表达增加、神经炎症和氧化还原状态(Nrf-2/Ho-1/TXNRD1/Sirt3/5)受损所致。
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来源期刊
Biological Research
Biological Research 生物-生物学
CiteScore
10.10
自引率
0.00%
发文量
33
审稿时长
>12 weeks
期刊介绍: Biological Research is an open access, peer-reviewed journal that encompasses diverse fields of experimental biology, such as biochemistry, bioinformatics, biotechnology, cell biology, cancer, chemical biology, developmental biology, evolutionary biology, genetics, genomics, immunology, marine biology, microbiology, molecular biology, neuroscience, plant biology, physiology, stem cell research, structural biology and systems biology.
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