Amicus Therapeutics, Cranbury, NJ, USA.
FEBS J. 2010 Apr;277(7):1618-38. doi: 10.1111/j.1742-4658.2010.07588.x. Epub 2010 Feb 10.
Gaucher disease is caused by mutations in the gene that encodes the lysosomal enzyme acid beta-glucosidase (GCase). We have shown previously that the small molecule pharmacological chaperone isofagomine (IFG) binds and stabilizes N370S GCase, resulting in increased lysosomal trafficking and cellular activity. In this study, we investigated the effect of IFG on L444P GCase. Incubation of Gaucher patient-derived lymphoblastoid cell lines (LCLs) or fibroblasts with IFG led to approximately 3.5- and 1.3-fold increases in L444P GCase activity, respectively, as measured in cell lysates. The effect in fibroblasts was increased approximately 2-fold using glycoprotein-enrichment, GCase-immunocapture, or by incubating cells overnight in IFG-free media prior to assay, methods designed to maximize GCase activity by reducing IFG carryover and inhibition in the enzymatic assay. IFG incubation also increased the lysosomal trafficking and in situ activity of L444P GCase in intact cells, as measured by reduction in endogenous glucosylceramide levels. Importantly, this reduction was seen only following three-day incubation in IFG-free media, underscoring the importance of IFG removal to restore lysosomal GCase activity. In mice expressing murine L444P GCase, oral administration of IFG resulted in significant increases (2- to 5-fold) in GCase activity in disease-relevant tissues, including brain. Additionally, eight-week IFG administration significantly lowered plasma chitin III and IgG levels, and 24-week administration significantly reduced spleen and liver weights. Taken together, these data suggest that IFG can increase the lysosomal activity of L444P GCase in cells and tissues. Moreover, IFG is orally available and distributes into multiple tissues, including brain, and may thus merit therapeutic evaluation for patients with neuronopathic and non-neuronopathic Gaucher disease.
戈谢病是由编码溶酶体酶酸性β-葡萄糖苷酶(GCase)的基因突变引起的。我们之前已经表明,小分子药物伴侣异法胍腙(IFG)与 N370S GCase 结合并稳定它,从而增加溶酶体运输和细胞活性。在这项研究中,我们研究了 IFG 对 L444P GCase 的影响。在用 IFG 孵育戈谢病患者来源的淋巴母细胞系(LCL)或成纤维细胞时,分别在细胞裂解物中测量到 L444P GCase 活性增加了约 3.5 倍和 1.3 倍。在用糖蛋白富集、GCase 免疫捕获或在用 IFG 无培养基孵育过夜后进行测定的方法中,该效果在成纤维细胞中增加了约 2 倍,这些方法旨在通过减少酶测定中的 IFG 残留和抑制来最大程度地提高 GCase 活性。IFG 孵育还增加了完整细胞中 L444P GCase 的溶酶体运输和原位活性,这是通过降低内源性葡萄糖神经酰胺水平来衡量的。重要的是,仅在 IFG 无培养基孵育三天后才观察到这种降低,这突显了去除 IFG 以恢复溶酶体 GCase 活性的重要性。在表达小鼠 L444P GCase 的小鼠中,口服 IFG 导致疾病相关组织(包括大脑)中的 GCase 活性显著增加(2-5 倍)。此外,8 周 IFG 给药显著降低了血浆几丁质 III 和 IgG 水平,24 周给药显著降低了脾脏和肝脏重量。总之,这些数据表明 IFG 可以增加细胞和组织中 L444P GCase 的溶酶体活性。此外,IFG 可口服给药,并分布到包括大脑在内的多种组织中,因此可能值得对神经病变和非神经病变戈谢病患者进行治疗评估。
