肌萎缩性侧索硬化症的视神经蛋白功能障碍:为什么如此令人费解?

Pub Date : 2020-12-30 DOI:10.18054/PB.V121-122I1-2.10627
Nikolina Prtenjaca
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引用次数: 3

摘要

十年前,optinurin的突变与肌萎缩性侧索硬化症(ALS)有关,但其在神经退行性过程中的确切作用仍不清楚。作为赖氨酸63 (K63)和甲硫氨酸(M1)连接的多泛素结合蛋白,optinineurin已被报道在活化B细胞的核因子κB -轻链增强剂(NF-κB)和干扰素调节因子3 (IRF3)介导的炎症信号通路中作为一个适配体,以及在膜相关的运输事件中,包括自噬、高尔基体的维持和胞外分泌。其他研究也证实了它在其他过程中的作用,如有丝分裂、转录、坏死和细胞凋亡的调节。然而,许多在细胞模型中报道的效应已被证明难以在优神经蛋白动物模型中重现,这表明了模型系统之间外推的挑战。了解到多功能蛋白对研究人员来说是一个“噩梦”,为了帮助他们在这个领域中导航,我们解决了与优神经蛋白及其在ALS和其他神经退行性疾病的发病机制中的作用有关的最常见的争议、悬而未决的问题和人工制品。
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Optineurin Dysfunction in Amyotrophic Lateral Sclerosis: Why So Puzzling?
Mutations in optineurin have been linked to amyotrophic lateral sclerosis (ALS) a decade ago, but its exact role in the neurodegenerative process is still unclear. As a lysine 63 (K63)and methionine (M1)-linked polyubiquitin-binding protein, optineurin has been reported to act as an adaptor in inflammatory signaling pathways mediated via nuclear factor kappa-lightchain-enhancer of activated B cells (NF-κB) and interferon regulatory factor 3 (IRF3), as well as in membrane-associated trafficking events including autophagy, maintenance of the Golgi apparatus, and exocytosis. Other studies have demonstrated its role in other processes such as regulation of mitosis, transcription, necroptosis and apoptosis. However, many of the reported effects in cell models have been proven difficult to reproduce in optineurin animal models, demonstrating the challenges of extrapolation between model systems. Knowing that multifunctional proteins present a “nightmare” for researchers, to help navigating through this field, we address the most common controversies, open questions, and artefacts related to optineurin and its role in pathogenesis of ALS and other neurodegenerative diseases.
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