Veronica Noches, Danae Campos-Melo, Cristian A. Droppelmann, Michael J. Strong
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引用次数: 0
摘要
肌萎缩性脊髓侧索硬化症(ALS)的运动神经元会逐渐退化,同时会形成多种细胞质和细胞核神经元内含物(蛋白质聚集体),这些内含物大多含有 RNA 结合蛋白,如 TAR DNA 结合蛋白 43(TDP-43)或肉瘤中的融合蛋白/脂肪肉瘤中的转移蛋白(FUS/TLS)。这一过程通常是由无膜细胞器中蛋白质的液固相分离驱动的,从而产生病理生物分子凝聚物。这些蛋白质聚集体的形成表明,mRNA 的表达或相关蛋白质的水平发生了根本性的改变。考虑到表观基因组在基因表达中的作用,DNA甲基化、组蛋白修饰、染色质重塑、非编码RNA和RNA修饰的改变与理解这一病理过程如何发生作用高度相关。在这篇综述中,我们探讨了将表观遗传机制与 ALS 蛋白质聚集体的形成联系起来的证据。我们认为,进一步了解表观基因组的作用以及表观基因组如何与 ALS 病理 LLPS 的形成相互关联,将为我们提供一个极具吸引力的治疗目标。
Epigenetics in the formation of pathological aggregates in amyotrophic lateral sclerosis
The progressive degeneration of motor neurons in amyotrophic lateral sclerosis (ALS) is accompanied by the formation of a broad array of cytoplasmic and nuclear neuronal inclusions (protein aggregates) largely containing RNA-binding proteins such as TAR DNA-binding protein 43 (TDP-43) or fused in sarcoma/translocated in liposarcoma (FUS/TLS). This process is driven by a liquid-to-solid phase separation generally from proteins in membrane-less organelles giving rise to pathological biomolecular condensates. The formation of these protein aggregates suggests a fundamental alteration in the mRNA expression or the levels of the proteins involved. Considering the role of the epigenome in gene expression, alterations in DNA methylation, histone modifications, chromatin remodeling, non-coding RNAs, and RNA modifications become highly relevant to understanding how this pathological process takes effect. In this review, we explore the evidence that links epigenetic mechanisms with the formation of protein aggregates in ALS. We propose that a greater understanding of the role of the epigenome and how this inter-relates with the formation of pathological LLPS in ALS will provide an attractive therapeutic target.
期刊介绍:
Frontiers in Molecular Neuroscience is a first-tier electronic journal devoted to identifying key molecules, as well as their functions and interactions, that underlie the structure, design and function of the brain across all levels. The scope of our journal encompasses synaptic and cellular proteins, coding and non-coding RNA, and molecular mechanisms regulating cellular and dendritic RNA translation. In recent years, a plethora of new cellular and synaptic players have been identified from reduced systems, such as neuronal cultures, but the relevance of these molecules in terms of cellular and synaptic function and plasticity in the living brain and its circuits has not been validated. The effects of spine growth and density observed using gene products identified from in vitro work are frequently not reproduced in vivo. Our journal is particularly interested in studies on genetically engineered model organisms (C. elegans, Drosophila, mouse), in which alterations in key molecules underlying cellular and synaptic function and plasticity produce defined anatomical, physiological and behavioral changes. In the mouse, genetic alterations limited to particular neural circuits (olfactory bulb, motor cortex, cortical layers, hippocampal subfields, cerebellum), preferably regulated in time and on demand, are of special interest, as they sidestep potential compensatory developmental effects.
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