一种用于神经节苷脂贮积症的底物剥夺疗法的遗传模型。

A genetic model of substrate deprivation therapy for a glycosphingolipid storage disorder.

作者信息

Liu Y, Wada R, Kawai H, Sango K, Deng C, Tai T, McDonald M P, Araujo K, Crawley J N, Bierfreund U, Sandhoff K, Suzuki K, Proia R L

机构信息

Genetics of Development and Disease Branch, National Institute of Diabetes and Digestive and Kidney Diseases, National Institutes of Health, Bethesda, Maryland 20892, USA.

出版信息

J Clin Invest. 1999 Feb;103(4):497-505. doi: 10.1172/JCI5542.

DOI:10.1172/JCI5542

PMID:10021458

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC408106/

Abstract

Inherited defects in the degradation of glycosphingolipids (GSLs) cause a group of severe diseases known as GSL storage disorders. There are currently no effective treatments for the majority of these disorders. We have explored a new treatment paradigm, substrate deprivation therapy, by constructing a genetic model in mice. Sandhoff's disease mice, which abnormally accumulate GSLs, were bred with mice that were blocked in their synthesis of GSLs. The mice with simultaneous defects in GSL synthesis and degradation no longer accumulated GSLs, had improved neurologic function, and had a much longer life span. However, these mice eventually developed a late-onset neurologic disease because of accumulation of another class of substrate, oligosaccharides. The results support the validity of the substrate deprivation therapy and also highlight some limitations.

摘要

糖鞘脂（GSLs）降解过程中的遗传性缺陷会引发一组严重疾病，即GSL储存障碍。目前，对于大多数这类疾病尚无有效的治疗方法。我们通过构建小鼠遗传模型探索了一种新的治疗模式——底物剥夺疗法。将异常蓄积GSLs的桑德霍夫病小鼠与GSLs合成受阻的小鼠进行杂交。GSLs合成和降解同时存在缺陷的小鼠不再蓄积GSLs，神经功能得到改善，寿命也延长了许多。然而，这些小鼠最终因另一类底物——寡糖的蓄积而患上迟发性神经疾病。这些结果支持了底物剥夺疗法的有效性，同时也凸显了一些局限性。

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