期刊
FRONTIERS IN BIOENGINEERING AND BIOTECHNOLOGY
卷 10, 期 -, 页码 -出版社
FRONTIERS MEDIA SA
DOI: 10.3389/fbioe.2022.799152
关键词
small molecule; direct neuronal reprogramming; transdifferentiation; regeneration medicine; neuron; neurological disease
This review discusses the use of small molecules to directly reprogram somatic cells into neurons for the treatment of neurological diseases. The mechanisms of action of different small molecules, methods to screen small molecule cocktails, and approaches to detect their reprogramming efficiency are discussed. Future research efforts should focus on investigating the in vivo mechanisms of small molecule-mediated neuronal reprogramming under pathophysiological conditions, optimizing screening cocktails and dosing regimens, and identifying safe and effective delivery routes to promote neural regeneration in different neurological diseases.
The lack of regenerative capacity of neurons leads to poor prognoses for some neurological disorders. The use of small molecules to directly reprogram somatic cells into neurons provides a new therapeutic strategy for neurological diseases. In this review, the mechanisms of action of different small molecules, the approaches to screening small molecule cocktails, and the methods employed to detect their reprogramming efficiency are discussed, and the studies, focusing on neuronal reprogramming using small molecules in neurological disease models, are collected. Future research efforts are needed to investigate the in vivo mechanisms of small molecule-mediated neuronal reprogramming under pathophysiological states, optimize screening cocktails and dosing regimens, and identify safe and effective delivery routes to promote neural regeneration in different neurological diseases.
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