溶酶体贮积症中细胞外囊泡的万花筒观察

Charlotte V Hegeman, Olivier G. de Jong, M. Lorenowicz
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摘要

细胞外囊泡(EVs)是一种异质性的稳定脂质膜颗粒,在许多生理和病理过程的调节中起着关键作用。EV货物,包括脂质、蛋白质和rna(包括mirna),受亲本细胞代谢状态的影响。同样,自噬-内溶酶体途径的异常,如溶酶体贮积障碍(lsd)所见,可以影响EV的释放和EV的载货。lsd是一组70多种遗传性疾病,其特征是溶酶体功能障碍和未消化分子的逐渐积累。lsd是由导致溶酶体蛋白或脂质缺乏的单基因突变引起的。溶酶体功能障碍引发内溶酶体途径的级联改变,从而影响自噬和改变钙稳态,导致能量失衡、氧化应激和细胞凋亡。这些疾病的病理生理学是非常复杂的,目前还不完全了解。lsd会导致进行性多系统症状,通常包括神经功能障碍。本文将对ev在lsd中的作用进行综述,从它们对病理和诊断的贡献到它们作为药物传递载体的作用。此外,将讨论EV货物和表面工程策略,以展示EV在未来LSD治疗中的潜力,无论是在酶替代疗法的背景下,还是在未来的基因编辑策略如CRISPR/Cas中。使用工程化的电动汽车作为药物递送载体可以屏蔽免疫系统的治疗货物,保护其免受降解,改善循环时间和靶向递送。
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A kaleidoscopic view of extracellular vesicles in lysosomal storage disorders
Extracellular vesicles (EVs) are a heterogeneous population of stable lipid membrane particles that play a critical role in the regulation of numerous physiological and pathological processes. EV cargo, which includes lipids, proteins, and RNAs including miRNAs, is affected by the metabolic status of the parental cell. Concordantly, abnormalities in the autophagic-endolysosomal pathway, as seen in lysosomal storage disorders (LSDs), can affect EV release as well as EV cargo. LSDs are a group of over 70 inheritable diseases, characterized by lysosomal dysfunction and gradual accumulation of undigested molecules. LSDs are caused by single gene mutations that lead to a deficiency of a lysosomal protein or lipid. Lysosomal dysfunction sets off a cascade of alterations in the endolysosomal pathway that can affect autophagy and alter calcium homeostasis, leading to energy imbalance, oxidative stress, and apoptosis. The pathophysiology of these diseases is very heterogenous, complex, and currently incompletely understood. LSDs lead to progressive multisystemic symptoms that often include neurological deficits. In this review, a kaleidoscopic overview will be given on the roles of EVs in LSDs, from their contribution to pathology and diagnostics to their role as drug delivery vehicles. Furthermore, EV cargo and surface engineering strategies will be discussed to show the potential of EVs in future LSD treatment, both in the context of enzyme replacement therapy, as well as future gene editing strategies like CRISPR/Cas. The use of engineered EVs as drug delivery vehicles may mask therapeutic cargo from the immune system and protect it from degradation, improving circulation time and targeted delivery.
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