Erythrocyte glutathione synthetase deficiency leads not only to glutathione but also to glutathione-S-transferase deficiency.

机译：红细胞谷胱甘肽合成酶缺乏症不仅导致谷胱甘肽而且导致谷胱甘肽-S-转移酶缺乏。

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Glutathione synthetase (GSH-S) is one of the two known hereditary causes of glutathione deficiency. We describe a family whose two children have hemolytic anemia. The children's erythrocytes lack GSH and are severely deficient in GSH-S activity. No neurologic findings or 5-oxoprolinuria were present. A concurrent deficiency of glutathione-S-transferase (GST) was also detected in the erythrocytes. Residual glutathione could be detected in the erythrocytes using a sensitive cycling assay. The deficiency was found to be most severe in reticulocyte-depleted preparations. The GSH-S activity of the erythrocytes of the parents was one-half normal, while the glutathione S-transferase activity was normal. We conclude that the primary defect is one of GSH-S. Glutathione stabilizes GST in vitro, and it is assumed that the deficiency of GST in the erythrocytes of the patients is due to the instability of this enzyme in the absence of adequate intracellular GSH levels.

机译：谷胱甘肽合成酶（GSH-S）是谷胱甘肽缺乏症的两种已知遗传原因之一。我们描述了一个有两个孩子患有溶血性贫血的家庭。儿童的红细胞缺乏GSH，GSH-S活性严重不足。没有神经系统发现或5-氧代脯氨酸尿症。在红细胞中还检测到并发谷胱甘肽-S-转移酶（GST）缺乏。使用敏感的循环分析可以在红细胞中检测出残留的谷胱甘肽。发现该缺陷在网织红细胞贫乏制剂中最为严重。父母的红细胞的GSH-S活性是正常的一半，而谷胱甘肽S-转移酶活性是正常的。我们得出结论，主要缺陷是GSH-S之一。谷胱甘肽可在体外稳定GST，并认为患者红细胞中GST的缺乏是由于在缺乏足够的细胞内GSH水平时该酶的不稳定。

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期刊名称 The Journal of Clinical Investigation
作者
E Beutler; T Gelbart; C Pegelow;
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作者单位

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年(卷),期 1986(77),1
年度 1986
页码 38–41
总页数 4
原文格式 PDF
正文语种
中图分类医学史;
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1. Acute metabolic crisis with extreme deficiency of glutathione in combination with decreased levels of leukotriene C4 in a patient with glutathione synthetase deficiency. [J] . Mayatepek E, Meissner T, Grobe H Journal of inherited metabolic disease . 2004,第2期

机译：患有谷胱甘肽合成酶缺乏症的患者，伴有谷胱甘肽极度缺乏和白三烯C4水平降低的急性代谢危机。
2. Genotype, enzyme activity, glutathione level, and clinical phenotype in patients with glutathione synthetase deficiency. [J] . Njalsson R, Ristoff E, Carlsson K, Human Genetics . 2005,第5期

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3. Modification of Escherichia coli B glutathione synthetase with polyethylene glycol for clinical application to enzyme replacement therapy for glutathione deficiency. [J] . Y Inoue, K Sugiyama, H Ueminami, Clinical and diagnostic laboratory immunology . 1996,第6期

机译：用聚乙二醇修饰大肠杆菌B谷胱甘肽合成酶，以用于谷胱甘肽缺乏症的酶替代疗法的临床应用。
4. A model to environmental monitoring based on glutathione-S-transferase activity and branchial lesions in catfish [C] . Raimunda Nonata Fortes Carvalho Neta, Audalio Rebelo Torres International Conference of Computational Methods in Sciences and Engineering . 2017

机译：基于谷胱甘肽-S转移酶活性和鲶鱼分枝病变的环境监测模型
5. A study of the beneficial role of thiol antioxidant supplementation in various forms of glutathione deficiency. [D] . Abraham, Linu Sara. 2009

机译：补充硫醇抗氧化剂在各种形式的谷胱甘肽缺乏症中的有益作用的研究。
6. Modification of Escherichia coli B glutathione synthetase with polyethylene glycol for clinical application to enzyme replacement therapy for glutathione deficiency. [O] . Y Inoue, K Sugiyama, H Ueminami, 1996

机译：用聚乙二醇修饰大肠杆菌B谷胱甘肽合成酶以临床应用为谷胱甘肽缺乏症的酶替代疗法。
7. Erythrocyte glutathione synthetase deficiency leads not only to glutathione but also to glutathione-S-transferase deficiency. [O] . Beutler, E, Gelbart, T, Pegelow, C 1986

机译：红细胞谷胱甘肽合成酶缺乏症不仅导致谷胱甘肽而且导致谷胱甘肽-S-转移酶缺乏。
8. Interaction of Haloacetonitriles with Glutathione and Glutathione-S-Transferase [R] . Lin, E. L. C., Guion, C. W. 1989

机译：Haloacetonitriles与谷胱甘肽和谷胱甘肽-s-转移酶的相互作用

Erythrocyte glutathione synthetase deficiency leads not only to glutathione but also to glutathione-S-transferase deficiency.

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