Inhibiting tau-induced elevated nSMase2 activity and ceramides is therapeutic in an Alzheimer's disease mouse model.

IF 10.8 1区医学 Q1 NEUROSCIENCES Translational Neurodegeneration Pub Date : 2023-12-04 DOI:10.1186/s40035-023-00383-9

Carolyn Tallon, Benjamin J Bell, Medhinee M Malvankar, Pragney Deme, Carlos Nogueras-Ortiz, Erden Eren, Ajit G Thomas, Kristen R Hollinger, Arindom Pal, Maja Mustapic, Meixiang Huang, Kaleem Coleman, Tawnjerae R Joe, Rana Rais, Norman J Haughey, Dimitrios Kapogiannis, Barbara S Slusher

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Abstract

Background: Cognitive decline in Alzheimer's disease (AD) is associated with hyperphosphorylated tau (pTau) propagation between neurons along synaptically connected networks, in part via extracellular vesicles (EVs). EV biogenesis is triggered by ceramide enrichment at the plasma membrane from neutral sphingomyelinase2 (nSMase2)-mediated cleavage of sphingomyelin. We report, for the first time, that human tau expression elevates brain ceramides and nSMase2 activity.

Methods: To determine the therapeutic benefit of inhibiting this elevation, we evaluated PDDC, the first potent, selective, orally bioavailable, and brain-penetrable nSMase2 inhibitor in the transgenic PS19 AD mouse model. Additionally, we directly evaluated the effect of PDDC on tau propagation in a mouse model where an adeno-associated virus (AAV) encoding P301L/S320F double mutant human tau was stereotaxically-injected unilaterally into the hippocampus. The contralateral transfer of the double mutant human tau to the dentate gyrus was monitored. We examined ceramide levels, histopathological changes, and pTau content within EVs isolated from the mouse plasma.

Results: Similar to human AD, the PS19 mice exhibited increased brain ceramide levels and nSMase2 activity; both were completely normalized by PDDC treatment. The PS19 mice also exhibited elevated tau immunostaining, thinning of hippocampal neuronal cell layers, increased mossy fiber synaptophysin immunostaining, and glial activation, all of which were pathologic features of human AD. PDDC treatment reduced these changes. The plasma of PDDC-treated PS19 mice had reduced levels of neuronal- and microglial-derived EVs, the former carrying lower pTau levels, compared to untreated mice. In the tau propagation model, PDDC normalized the tau-induced increase in brain ceramides and significantly reduced the amount of tau propagation to the contralateral side.

Conclusions: PDDC is a first-in-class therapeutic candidate that normalizes elevated brain ceramides and nSMase2 activity, leading to the slowing of tau spread in AD mice.

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抑制tau诱导的nSMase2活性升高和神经酰胺在阿尔茨海默病小鼠模型中具有治疗作用。

背景:阿尔茨海默病(AD)的认知能力下降与沿突触连接网络的神经元间过度磷酸化的tau (pTau)传播有关，部分通过细胞外囊泡(EVs)。EV的生物发生是由中性鞘磷脂酶2 (nSMase2)介导的鞘磷脂裂解在质膜上富集神经酰胺引发的。我们首次报道，人类tau表达可提高脑神经酰胺和nSMase2活性。方法:为了确定抑制这种升高的治疗效果，我们在转基因PS19 AD小鼠模型中评估了PDDC，这是第一个有效的、选择性的、口服生物利用的、可穿透脑的nSMase2抑制剂。此外，我们在小鼠模型中直接评估了PDDC对tau繁殖的影响，该模型将编码P301L/S320F双突变人tau的腺相关病毒(AAV)立体定向地单侧注射到海马中。监测双突变人类tau蛋白向齿状回的对侧转移。我们检测了从小鼠血浆中分离的ev中的神经酰胺水平、组织病理学变化和pTau含量。结果:与人AD相似，PS19小鼠表现出脑神经酰胺水平和nSMase2活性升高;经PDDC治疗后均完全归一化。PS19小鼠还表现出tau免疫染色升高，海马神经元细胞层变薄，苔藓纤维突触素免疫染色增加，神经胶质活化，这些都是人类AD的病理特征。PDDC治疗减少了这些变化。与未处理的小鼠相比，pddc处理的PS19小鼠血浆中神经元和小胶质来源的ev水平降低，前者携带较低的pTau水平。在tau传播模型中，PDDC使tau诱导的脑神经酰胺增加正常化，并显著减少tau向对侧的传播量。结论:PDDC是一种一流的候选治疗药物，可使升高的脑神经酰胺和nSMase2活性正常化，从而减缓AD小鼠中tau的扩散。

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来源期刊

Translational Neurodegeneration Neuroscience-Cognitive Neuroscience

CiteScore

19.50

自引率

0.80%

发文量

审稿时长

10 weeks

期刊介绍： Translational Neurodegeneration, an open-access, peer-reviewed journal, addresses all aspects of neurodegenerative diseases. It serves as a prominent platform for research, therapeutics, and education, fostering discussions and insights across basic, translational, and clinical research domains. Covering Parkinson's disease, Alzheimer's disease, and other neurodegenerative conditions, it welcomes contributions on epidemiology, pathogenesis, diagnosis, prevention, drug development, rehabilitation, and drug delivery. Scientists, clinicians, and physician-scientists are encouraged to share their work in this specialized journal tailored to their fields.