TAT-PPA1 protects against oxidative stress-induced loss of dopaminergic neurons

IF 2.6 3区 医学 Q3 NEUROSCIENCES Molecular and Cellular Neuroscience Pub Date : 2024-10-31 DOI:10.1016/j.mcn.2024.103978
Hyun Jung Kwon , Hyo Young Jung , Soo Young Choi , In Koo Hwang , Dae Won Kim , Min Jea Shin
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Abstract

Parkinson's disease (PD) is a neurodegenerative disorder characterized by the progressive loss of dopaminergic neurons in the substantia nigra (SN) of the midbrain, resulting in severe motor impairments. Inorganic pyrophosphatase 1 (PPA1) plays a key role in various biological processes, and this study introduces a cell-penetrating PPA1 fusion protein (TAT-PPA1) to explore its transduction into cells and brain tissues. TAT-PPA1 effectively penetrates SH-SY5Y cells and the SN region of PD animal models without toxicity, exhibiting protective effects against 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP-)-induced cell death. TAT-PPA1 revealed an inhibitory influence on the MAPK signaling pathway and MPTP-induced reactive oxygen species (ROS) production. TAT-PPA1 suppresses JNK, AKT, p53, ERK, and p38 phosphorylation, showcasing its multifaceted role in cell survival pathways. In the MPTP-induced PD animal model, TAT-PPA1 prevents dopaminergic cell death and enhances motor function. This study shows that TAT-PPA1 protects against oxidative stress and cell death in neurodegenerative diseases, suggesting potential as a PD treatment.

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TAT-PPA1 可防止氧化应激诱导的多巴胺能神经元丧失。
帕金森病(Parkinson's disease,PD)是一种神经退行性疾病,以中脑黑质(substantia nigra,SN)多巴胺能神经元的进行性丧失为特征,导致严重的运动障碍。无机焦磷酸酶1(PPA1)在多种生物过程中发挥着关键作用,本研究引入了一种细胞穿透性PPA1融合蛋白(TAT-PPA1),以探索其在细胞和脑组织中的转导。TAT-PPA1能有效穿透SH-SY5Y细胞和PD动物模型的SN区域,且无毒性,对1-甲基-4-苯基-1,2,3,6-四氢吡啶(MPTP)诱导的细胞死亡有保护作用。TAT-PPA1 对 MAPK 信号通路和 MPTP 诱导的活性氧(ROS)产生有抑制作用。TAT-PPA1 可抑制 JNK、AKT、p53、ERK 和 p38 的磷酸化,显示了它在细胞存活通路中的多方面作用。在 MPTP 诱导的帕金森病动物模型中,TAT-PPA1 可防止多巴胺能细胞死亡并增强运动功能。这项研究表明,TAT-PPA1 可防止神经退行性疾病中的氧化应激和细胞死亡,具有治疗帕金森病的潜力。
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来源期刊
CiteScore
5.60
自引率
0.00%
发文量
65
审稿时长
37 days
期刊介绍: Molecular and Cellular Neuroscience publishes original research of high significance covering all aspects of neurosciences indicated by the broadest interpretation of the journal''s title. In particular, the journal focuses on synaptic maintenance, de- and re-organization, neuron-glia communication, and de-/regenerative neurobiology. In addition, studies using animal models of disease with translational prospects and experimental approaches with backward validation of disease signatures from human patients are welcome.
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