通过将脑胶质细胞转化为神经元抑制PTB的治疗潜力。

IF 12.1 1区 医学 Q1 NEUROSCIENCES Annual review of neuroscience Pub Date : 2023-07-10 DOI:10.1146/annurev-neuro-083022-113120
Xiang-Dong Fu, William C Mobley
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引用次数: 0

摘要

细胞替代疗法是治疗神经退行性疾病的一种很有前途的方法。与通过过度表达谱系特异性转录因子从神经胶质细胞生成新神经元的常见加法策略相反,最近的一项研究引入了一种减法策略,通过消耗单个rna结合蛋白Ptbp1,不仅在体外而且在大脑中将星形胶质细胞转化为神经元。鉴于其简单性,多个研究小组已经尝试验证和扩展这种有吸引力的方法,但在从成熟星形胶质细胞中追踪新诱导的神经元时遇到了困难,这提出了神经元渗漏的可能性,作为星形胶质细胞向神经元转化的另一种解释。这篇综述的重点是关于这个关键问题的辩论。重要的是,多种证据表明pptp1缺失可以将选择性胶质细胞亚群转化为神经元,并通过这一机制和其他机制逆转帕金森病模型中的缺陷,这强调了未来探索这种治疗策略的重要性。
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Therapeutic Potential of PTB Inhibition Through Converting Glial Cells to Neurons in the Brain.

Cell replacement therapy represents a promising approach for treating neurodegenerative diseases. Contrary to the common addition strategy to generate new neurons from glia by overexpressing a lineage-specific transcription factor(s), a recent study introduced a subtraction strategy by depleting a single RNA-binding protein, Ptbp1, to convert astroglia to neurons not only in vitro but also in the brain. Given its simplicity, multiple groups have attempted to validate and extend this attractive approach but have met with difficulty in lineage tracing newly induced neurons from mature astrocytes, raising the possibility of neuronal leakage as an alternative explanation for apparent astrocyte-to-neuron conversion. This review focuses on the debate over this critical issue. Importantly, multiple lines of evidence suggest that Ptbp1 depletion can convert a selective subpopulation of glial cells into neurons and, via this and other mechanisms, reverse deficits in a Parkinson's disease model, emphasizing the importance of future efforts in exploring this therapeutic strategy.

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来源期刊
Annual review of neuroscience
Annual review of neuroscience 医学-神经科学
CiteScore
25.30
自引率
0.70%
发文量
29
期刊介绍: The Annual Review of Neuroscience is a well-established and comprehensive journal in the field of neuroscience, with a rich history and a commitment to open access and scholarly communication. The journal has been in publication since 1978, providing a long-standing source of authoritative reviews in neuroscience. The Annual Review of Neuroscience encompasses a wide range of topics within neuroscience, including but not limited to: Molecular and cellular neuroscience, Neurogenetics, Developmental neuroscience, Neural plasticity and repair, Systems neuroscience, Cognitive neuroscience, Behavioral neuroscience, Neurobiology of disease. Occasionally, the journal also features reviews on the history of neuroscience and ethical considerations within the field.
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