Epigenetic Correction and Early Brain Pharmacotherapy in Down Syndrome

J. Rondal
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Abstract

Down syndrome (DS) is the most frequent autosomal aneuploidy. It refers to a genetic condition due to the triplication of human chromosome 21 (Hsa21). Disruption of the phenotype is thought to be the result of gene-dosage imbalance. This phenotype is always characterized by neurodevelopmental anomalies. Additionally, persons with DS have higher risks of several medical challenges. These include congenital heart disease, susceptibility to viruses and immune defects, metabolic changes, and hematopoietic abnormalities. In recent years, experimental work has been conducted with the aim of correcting overexpressed genes on chromosome 21 or silencing the extra chromosome 21 to normalize genetic expression. The paper examines the clinical feasibility of these attempts and identifies several caveats. Improving neurogenesis, dendritic density and synaptic connectivity with pharmacological substances is more at hand with the current technical knowledge and legal provisos.
唐氏综合征的表观遗传矫正和早期脑部药物治疗
唐氏综合征(DS)是最常见的常染色体非整倍体。它是指由于人类 21 号染色体(Hsa21)三倍体造成的遗传病。表型的破坏被认为是基因剂量失衡的结果。这种表型总是以神经发育异常为特征。此外,DS 患者罹患多种疾病的风险较高。其中包括先天性心脏病、对病毒的易感性和免疫缺陷、代谢变化和造血异常。近年来,人们开展了一些实验工作,旨在纠正 21 号染色体上过度表达的基因或沉默多余的 21 号染色体,使基因表达正常化。本文探讨了这些尝试在临床上的可行性,并指出了一些注意事项。就目前的技术知识和法律规定而言,利用药理物质改善神经发生、树突密度和突触连接更为可行。
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