Unique Properties of Synaptosomes and Prospects for Their Use for the Treatment of Alzheimer’s Disease

IF 2.3 4区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Biochemistry (Moscow) Pub Date : 2024-07-04 DOI:10.1134/S0006297924060051
Alla S. Dashkova, Vladimir I. Kovalev, Alina V. Chaplygina, Daria Yu. Zhdanova, Natalia V. Bobkova
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Abstract

Alzheimer’s disease (AD) is a severe neurodegenerative condition affecting millions worldwide. Prevalence of AD correlates with increased life expectancy and aging population in the developed countries. Considering that AD is a multifactorial disease involving various pathological processes such as synaptic dysfunction, neuroinflammation, oxidative stress, and improper protein folding, a comprehensive approach targeting multiple pathways may prove effective in slowing the disease progression. Cellular therapy and its further development in the form of cell vesicle and particularly mitochondrial transplantation represent promising approaches for treating neurodegeneration. The use of synaptosomes, due to uniqueness of their contents, could mark a new stage in the development of comprehensive therapies for neurodegenerative diseases, particularly AD. Synaptosomes contain unique memory mitochondria, which differ not only in size but also in functionality compared to the mitochondria in the neuronal soma. These synaptosomal mitochondria actively participate in cellular communication and signal transmission within synapses. Synaptosomes also contain other elements such as their own protein synthesis machinery, synaptic vesicles with neurotransmitters, synaptic adhesion molecules, and microRNAs – all crucial for synaptic transmission and, consequently, cognitive processes. Complex molecular ensemble ensures maintenance of the synaptic autonomy of mitochondria. Additionally, synaptosomes, with their affinity for neurons, can serve as an optimal platform for targeted drug delivery to nerve cells. This review discusses unique composition of synaptosomes, their capabilities and advantages, as well as limitations of their suggested use as therapeutic agents for treating neurodegenerative pathologies, particularly AD.

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突触小体的独特性质及其用于治疗阿尔茨海默病的前景
摘要 阿尔茨海默病(AD)是一种严重的神经退行性疾病,影响着全球数百万人。在发达国家,阿尔茨海默病的发病率与预期寿命延长和人口老龄化相关。考虑到多发性硬化症是一种多因素疾病,涉及突触功能障碍、神经炎症、氧化应激和蛋白质折叠不当等多种病理过程,针对多种途径的综合方法可能被证明能有效减缓疾病的进展。细胞疗法及其在细胞囊泡特别是线粒体移植形式上的进一步发展,代表了治疗神经退行性变的前景广阔的方法。由于突触小体内容物的独特性,使用突触小体可能标志着神经退行性疾病(尤其是注意力缺失症)综合疗法的发展进入了一个新阶段。突触体含有独特的记忆线粒体,与神经元体细胞内的线粒体相比,突触体线粒体不仅大小不同,而且功能也不同。这些突触体线粒体积极参与突触内的细胞通讯和信号传递。突触小体还包含其他元素,如自身的蛋白质合成机制、含有神经递质的突触囊泡、突触粘附分子和微核糖核酸--所有这些对突触传递以及认知过程都至关重要。复杂的分子组合确保线粒体维持突触自主性。此外,突触小体对神经元具有亲和力,可作为向神经细胞定向递送药物的最佳平台。这篇综述讨论了突触小体的独特组成、它们的能力和优势,以及建议将它们用作治疗神经退行性病变(尤其是注意力缺失症)的药物的局限性。
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来源期刊
Biochemistry (Moscow)
Biochemistry (Moscow) 生物-生化与分子生物学
CiteScore
4.70
自引率
3.60%
发文量
139
审稿时长
2 months
期刊介绍: Biochemistry (Moscow) is the journal that includes research papers in all fields of biochemistry as well as biochemical aspects of molecular biology, bioorganic chemistry, microbiology, immunology, physiology, and biomedical sciences. Coverage also extends to new experimental methods in biochemistry, theoretical contributions of biochemical importance, reviews of contemporary biochemical topics, and mini-reviews (News in Biochemistry).
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