Impairment of Nrf2 signaling in the hippocampus of P301S tauopathy mice model aligns with the cognitive impairment and the associated neuroinflammation.

IF 4.4 3区医学 Q2 IMMUNOLOGY

Journal of Inflammation-London Pub Date : 2024-08-06 DOI:10.1186/s12950-024-00396-9

Ahmed Sabry Mohamed, Mahmoud ElKaffas, Karim Metwally, Mahmoud Abdelfattah, Eslam Ashraf Elsery, Ahmed Elshazly, Hossam Eldin Gomaa, Aziza Alsayed, Sara El-Desouky, Randa El-Gamal, Sara Elfarrash

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引用次数: 0

Abstract

Mice transgenic for human P301S tau protein exhibit many characteristics of the human tauopathies, including the formation of abundant hyperphoshorylated tau filaments, the associated neuroinflammation and disease phenotype. However, the exact underpinning mechanisms are still not fully addressed that hinder our understanding of the tauopathy diseases and the development of possible therapeutic targets.Methods: In the current study, hippocampus from three disease time points (2, 4 and 6 months) of P301S mice were further characterized in comparison to the age and sex matched control wild type mice (WT) that do not express the transgene. Different spectrum of hippocampal dependent cognitive tests, biochemical and pathological analysis were conducted to understand the disease progression and the associated changes in each stage. Results: Cognitive impairment was manifested as early as 2 months age, prior to the identification of tau aggregation and phosphorylation by immunostaining. P301S mice manifested an increased pro-inflammatory related changes at mRNA transcription level (IL-1b and IL17A) with the progression of the disease and when compared to the WT mice of the same age. Among the identified genes in the current study, the nuclear factor (erythroid-derived 2)-like 2 (Nrf2) genes expression that is considered as the master regulator of an endogenous inducible defense system was significantly impaired in P301S mice by 4 and 6 months when compared to healthy WT controls. A data that was also supported by the immunostaining of the serial brain sections including the both brain stem and hippocampus. The current result is suggesting that the downregulation of Nrf2 gene and the impaired Nrf2 dependent anti-inflammatory mechanisms in P301S mice brain is possibly contributing -among other factors- in the neuroinflammation and tauopathy, and that modulation of Nrf2 signaling impairments can be further investigated as a promising potential therapeutic target for tauopathy.

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P301S tauopathy 小鼠模型海马中 Nrf2 信号的受损与认知障碍和相关的神经炎症是一致的。

转基因人P301S tau蛋白的小鼠表现出人类tau病的许多特征，包括形成丰富的高phoshorylated tau丝、相关的神经炎症和疾病表型。然而，确切的基础机制仍未得到完全解决，这阻碍了我们对tauopathy疾病的理解和可能的治疗靶点的开发：在当前的研究中，我们将 P301S 小鼠三个疾病时间点（2 个月、4 个月和 6 个月）的海马与年龄和性别匹配的未表达转基因的野生型对照小鼠（WT）进行了比较。研究人员进行了不同的海马认知测试、生化和病理分析，以了解疾病的进展和每个阶段的相关变化。结果认知障碍早在小鼠 2 个月大时就已表现出来，当时免疫染色法还未发现 tau 聚集和磷酸化。与同龄的WT小鼠相比，P301S小鼠在mRNA转录水平（IL-1b和IL17A）上表现出的促炎症相关变化随着病情的发展而增加。与健康的 WT 对照组相比，P301S 小鼠在 4 个月和 6 个月时，核因子（红细胞衍生 2）样 2（Nrf2）基因的表达明显受损，而 Nrf2 被认为是内源性诱导性防御系统的主调节因子。包括脑干和海马在内的连续脑切片的免疫染色也证实了这一数据。目前的研究结果表明，P301S 小鼠大脑中 Nrf2 基因的下调和 Nrf2 依赖性抗炎机制的受损可能是导致神经炎症和陶斑病的原因之一，而调节 Nrf2 信号传导的损伤可作为陶斑病的潜在治疗靶点进行进一步研究。

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来源期刊

Journal of Inflammation-London IMMUNOLOGY-

CiteScore

7.90

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Journal of Inflammation welcomes research submissions on all aspects of inflammation. The five classical symptoms of inflammation, namely redness (rubor), swelling (tumour), heat (calor), pain (dolor) and loss of function (functio laesa), are only part of the story. The term inflammation is taken to include the full range of underlying cellular and molecular mechanisms involved, not only in the production of the inflammatory responses but, more importantly in clinical terms, in the healing process as well. Thus the journal covers molecular, cellular, animal and clinical studies, and related aspects of pharmacology, such as anti-inflammatory drug development, trials and therapeutic developments. It also considers publication of negative findings. Journal of Inflammation aims to become the leading online journal on inflammation and, as online journals replace printed ones over the next decade, the main open access inflammation journal. Open access guarantees a larger audience, and thus impact, than any restricted access equivalent, and increasingly so, as the escalating costs of printed journals puts them outside University budgets. The unrestricted access to research findings in inflammation aids in promoting dynamic and productive dialogue between industrial and academic members of the inflammation research community, which plays such an important part in the development of future generations of anti-inflammatory therapies.