Transgenic mouse expressing human mutant alpha-galactosidase A in an endogenous enzyme deficient background: a biochemical animal model for studying active-site specific chaperone therapy for Fabry disease.

Satoshi Ishii, Hidekatsu Yoshioka, Kazuaki Mannen, Ashok B Kulkarni, Jian-Qiang Fan
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引用次数: 75

Abstract

Fabry disease is an inborn error of glycosphingolipid metabolism caused by the deficiency of lysosomal alpha-galactosidase A (alpha-Gal A). We have established transgenic mice that exclusively express human mutant alpha-Gal A (R301Q) in an alpha-Gal A knock-out background (TgM/KO mice). This serves as a biochemical model to study and evaluate active-site specific chaperone (ASSC) therapy for Fabry disease, which is specific for those missense mutations that cause misfolding of alpha-Gal A. The alpha-Gal A activities in the heart, kidney, spleen, and liver of homozygous TgM/KO mice were 52.6, 9.9, 29.6 and 44.4 unit/mg protein, respectively, corresponding to 16.4-, 0.8-, 0.6- and 1.4-fold of the endogenous enzyme activities in the same tissues of non-transgenic mice with a similar genetic background. Oral administration of 1-deoxygalactonojirimycin (DGJ), a competitive inhibitor of alpha-Gal A and an effective ASSC for Fabry disease, at 0.05 mM in the drinking water of the mice for 2 weeks resulted in 13.8-, 3.3-, 3.9-, and 2.6-fold increases in enzyme activities in the heart, kidney, spleen and liver, respectively. No accumulation of globotriaosylceramide, a natural substrate of alpha-Gal A, could be detected in the heart of TgM/KO mice after DGJ treatment, indicating that degradation of the glycolipid in the heart was not inhibited by DGJ at that dosage. The alpha-Gal A activity in homozygous or heterozygous fibroblasts established from TgM/KO mice (TMK cells) was approximately 39 and 20 unit/mg protein, respectively. These TgM/KO mice and TMK cells are useful tools for studying the mechanism of ASSC therapy, and for screening ASSCs for Fabry disease.

在内源性酶缺乏背景下表达人α -半乳糖苷酶A突变体的转基因小鼠:研究法布里病活性位点特异性伴侣治疗的生化动物模型
法布里病是由溶酶体α -半乳糖苷酶A (α -gal A)缺乏引起的先天性鞘糖脂代谢错误。我们建立了在α -gal A敲除背景(TgM/KO小鼠)中专门表达人类α -gal A突变体(R301Q)的转基因小鼠。这可以作为研究和评估Fabry病的活性位点特异性伴侣(ASSC)治疗的生化模型,ASSC针对导致α - gal a错误折叠的错义突变。纯合子TgM/KO小鼠的α - gal a在心脏、肾脏、脾脏和肝脏中的活性分别为52.6、9.9、29.6和44.4单位/mg蛋白,对应于16.4-、0.8-、在具有相似遗传背景的非转基因小鼠的同一组织中,内源性酶活性是前者的0.6倍和1.4倍。1-deoxygalactonojirimycin (DGJ)是α - gala的竞争性抑制剂,也是Fabry病的有效ASSC,在小鼠的饮用水中以0.05 mM的剂量口服2周,心脏、肾脏、脾脏和肝脏的酶活性分别增加13.8倍、3.3倍、3.9倍和2.6倍。DGJ处理后,TgM/KO小鼠的心脏中未检测到globotriaosylceramide (α - gal a的天然底物)的积累,表明该剂量的DGJ未抑制心脏中糖脂的降解。从TgM/KO小鼠(TMK细胞)培养的纯合子和杂合子成纤维细胞中α - gal A的活性分别约为39和20单位/毫克蛋白。这些TgM/KO小鼠和TMK细胞是研究ASSC治疗机制和筛选Fabry病ASSC的有用工具。
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