肉桂酸--一种天然植物化合物--通过 PPARα 在小鼠 Sandhoff 病模型中发挥神经保护作用

S. Raha, Ramesh K Paidi, Debashis Dutta, K. Pahan
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引用次数: 0

摘要

泰-萨克斯病(Tay-Sachs disease,TSD)及其严重形式的桑德霍夫病(Sandhoff disease,SD)是常染色体隐性溶酶体贮积代谢病,通常会导致 GM2 神经节苷脂过度积聚,主要存在于神经细胞的溶酶体中。虽然这些疾病的患者出生时看起来正常,但未降解的GM2神经节苷脂在神经元中的进行性积累会导致患者早期死亡,并伴有运动障碍和行为能力的逐渐丧失。遗憾的是,目前仍没有治疗 TSD/SD 的有效方法。肉桂酸是一种存在于多种植物中的天然芳香族脂肪酸,本研究强调了肉桂酸在转基因 SD 小鼠模型中抑制疾病过程的重要性。口服肉桂酸能明显减轻神经胶质的活化和炎症反应,并减少GM2神经节苷脂/糖类共轭物在Sandhoff小鼠大脑皮层的积累。此外,口服 CA 还能改善 Sandhoff 小鼠的行为表现并提高其存活率。在评估其机制时,我们发现口服 CA 能提高 Sandhoff 小鼠大脑中过氧化物酶体增殖激活受体 α(PPARα)的水平,而对于缺乏 PPARα 的 Sandhoff 小鼠,口服 CA 仍无法减少糖结合物、改善行为和提高存活率。我们的研究结果表明,CA 的有益功能是利用 PPARα 依赖性机制阻止 SD 的发展,从而延长 Sandhoff 小鼠的寿命。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cinnamic acid, a natural plant compound, exhibits neuroprotection in a mouse model of Sandhoff disease via PPARα
Tay-Sachs disease (TSD) and its severe form Sandhoff disease (SD) are autosomal recessive lysosomal storage metabolic disorders, which often result into excessive GM2 ganglioside accumulation predominantly in lysosomes of nerve cells. Although patients with these diseases appear normal at birth, the progressive accumulation of undegraded GM2 gangliosides in neurons leads to early death accompanied by manifestation of motor difficulties and gradual loss of behavioral skills. Unfortunately, there is still no effective treatment available for TSD/SD. The present study highlights the importance of cinnamic acid (CA), a naturally occurring aromatic fatty acid present in a number of plants, in inhibiting the disease process in a transgenic mouse model of SD. Oral administration of CA significantly attenuated glial activation and inflammation and reduced the accumulation of GM2 gangliosides/glycoconjugates in the cerebral cortex of Sandhoff mice. Besides, oral CA also improved behavioral performance and increased the survival of Sandhoff mice. While assessing the mechanism, we found that oral administration of CA increased the level of peroxisome proliferator-activated receptor α (PPARα) in the brain of Sandhoff mice and that oral CA remained unable to reduce glycoconjugates, improve behavior and increase survival in Sandhoff mice lacking PPARα. Our results indicate a beneficial function of CA that utilizes a PPARα-dependent mechanism to halt the progression of SD and thereby increase the longevity of Sandhoff mice.
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