RNP granules in ALS and neurodegeneration: From multifunctional membraneless organelles to therapeutic opportunities.

International review of neurobiology Pub Date : 2024-01-01 Epub Date: 2024-05-14 DOI:10.1016/bs.irn.2024.04.009
Tatyana A Shelkovnikova, Guillaume M Hautbergue
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Abstract

Amyotrophic lateral sclerosis (ALS) and related neurodegenerative diseases are characterised by dysfunction of a host of RNA-binding proteins (RBPs) and a severely disrupted RNA metabolism. Recently, RBP-harbouring phase-separated complexes, ribonucleoprotein (RNP) granules, have come into the limelight as "crucibles" of neuronal pathology in ALS. RNP granules are indispensable for the multitude of regulatory processes underlying cellular RNA metabolism and serve as critical organisers of cellular biochemistry. Neurons, highly specialised cells, heavily rely on RNP granules for efficient trafficking, signalling and stress responses. Multiple RNP granule components, primarily RBPs such as TDP-43 and FUS, are affected by ALS mutations. However, even in the absence of mutations, RBP proteinopathies represent pathophysiological hallmarks of ALS. Given the high local concentrations of RBPs and RNAs, their weakened or enhanced interactions within RNP granules disrupt their homeostasis. Thus, the physiological process of phase separation and RNP granule formation, vital for maintaining the high-functioning state of neuronal cells, becomes their Achilles heel. Here, we will review the recent literature on the causes and consequences of abnormal RNP granule functioning in ALS and related disorders. In particular, we will summarise the evidence for the network-level dysfunction of RNP granules in these conditions and discuss considerations for therapeutic interventions to target RBPs, RNP granules and their network as a whole.

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ALS 和神经变性中的 RNP 颗粒:从多功能无膜细胞器到治疗机会。
肌萎缩性脊髓侧索硬化症(ALS)和相关神经退行性疾病的特征是大量 RNA 结合蛋白(RBPs)功能失调和 RNA 代谢严重紊乱。最近,与 RBP 相分离的复合物--核糖核蛋白(RNP)颗粒成为 ALS 神经元病理学的 "关键",备受关注。RNP 颗粒对于细胞 RNA 代谢的多种调节过程不可或缺,是细胞生物化学的关键组织者。神经元作为高度特化的细胞,在很大程度上依赖于 RNP 颗粒进行有效的转运、信号传递和应激反应。ALS 基因突变会影响多种 RNP 颗粒成分,主要是 TDP-43 和 FUS 等 RBPs。然而,即使没有突变,RBP 蛋白病也是 ALS 的病理生理特征。由于 RBPs 和 RNAs 的局部浓度很高,它们在 RNP 颗粒内的相互作用减弱或增强,破坏了它们的平衡。因此,对维持神经细胞高功能状态至关重要的相分离和 RNP 颗粒形成的生理过程就成了它们的致命弱点。在此,我们将回顾有关 ALS 及相关疾病中 RNP 颗粒功能异常的原因和后果的最新文献。特别是,我们将总结这些病症中 RNP 颗粒网络级功能障碍的证据,并讨论针对 RBPs、RNP 颗粒及其网络整体的治疗干预措施的考虑因素。
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