草履虫在神经退行性疾病建模中的作用简评

Himangi Vig, Priyanka Shukla, Anamika Mishra, Ayushi Pal, Ankita Wal
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引用次数: 0

摘要

在生物医学研究中,一种名为 "秀丽隐杆线虫"(Caenorhabditis elegans)的半透明小型线虫经常被用作模式生物。这种蠕虫长约 1 毫米,以细菌为食,通常存在于土壤中。对于有关遗传学、发育生物学、神经科学、细胞生物学和衰老的研究来说, elegans 是一个理想的模型。它的结构非常简单,包括半透明的身体和只有 302 个神经元的神经系统,因此可以非常详细地观察细胞和发育过程。由于其特殊的优势,草履虫可以对导致与年龄相关的神经退行性疾病的细胞和分子过程进行彻底的表征。本文对 elegans 的生命周期、实验方法以及利用 elegans 来模拟脑部疾病(包括与导致神经退行性疾病的分子和遗传因素有关的疾病)进行了总体回顾。此外,我们还将介绍优雅蛛是如何结合其生物学特性和新的分析技术,成为研究神经元的完美模式生物,以应对普遍存在的与年龄相关的神经退行性疾病。文献综述过程是通过在线检索数据库(如 Web of Science、PubMED、Embase、Google Scholar、Medline 和 Google Patents)逐步进行的。在第一次搜索中,使用了优雅蛇、疾病模型和神经保护活性等关键词。由于秀丽隐杆线虫在生理上是透明的,因此可以通过共表达荧光蛋白来追踪衰老生物的神经退行性发展。重要的是,完全特征化的连接组提供了一种独特的能力,可将细胞死亡与体内行为不稳定性或表型多样性精确地联系起来,从而深入了解神经变性对健康的有害影响。此外,药物疗法以及正向和反向基因筛选加快了发现改变神经退行性变的调节剂的速度。这些化学-遗传研究共同确定了增加或减少细胞压力的重要临界状态,从而揭示了相关的途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Brief Review on Caenorhabditis elegans Role in Modelling Neurodegenerative Disease.

A small, translucent nematode known as Caenorhabditis elegans, or C. elegans, is frequently utilized as a model organism in biomedical studies. These worms, which are around 1 mm long and feed on bacteria, are usually found in soil. For accessible and effective research on genetics, developmental biology, neuroscience, cell biology, and aging, C. elegans provide an ideal model. Its simplicity, which includes a translucent body and a nervous system with only 302 neurons, makes it possible to see cellular and developmental processes in great detail. Because of its special benefits, the worm Caenorhabditis elegans allows for a thorough characterization of the cellular and molecular processes causing age-related neurodegenerative diseases. This is a general review of the life cycle, experimental methodologies, and the use of C. elegans to model brain diseases, including those related to molecular and genetic factors that cause neurodegenerative diseases. Additionally, we go over how C. elegans is a perfect model organism for studying neurons in instances of prevalent age-related neurodegenerative illnesses due to a combination of its biological traits and new analytical techniques. The literature review process was carried out step-by-step using online search databases such as Web of Science, PubMED, Embase, Google Scholar, Medline, and Google Patents. In the first searches, keywords like C.elegans, disease modelling, and neuroprotective activity were employed. Because of C. elegans's physiological transparency, it is possible to track the development of neurodegeneration in aging organisms by using co-expressed fluorescent proteins. Importantly, a fully characterized connectome provides a unique ability to precisely connect cellular death with behavioural instability or phenotypic diversity in vivo, thus permitting a deep knowledge of the detrimental effect of neurodegeneration on wellbeing. In addition, pharmacological therapies and both forward and reverse gene screening speed up the discovery of modifiers that change neurodegeneration. These chemical-genetic investigations work together to determine important threshold states that either increase or decrease cellular stress in order to unravel related pathways.

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