叶酸在培养的人类细胞中的分布。关于5,10-CH2-H4PteGlu还原酶缺乏症的研究。

Folate distribution in cultured human cells. Studies on 5,10-CH2-H4PteGlu reductase deficiency.

作者信息

Rosenblatt D S, Cooper B A, Lue-Shing S, Wong P W, Berlow S, Narisawa K, Baumgartner R

出版信息

J Clin Invest. 1979 May;63(5):1019-25. doi: 10.1172/JCI109370.

DOI:10.1172/JCI109370

PMID:447824

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC372044/

Abstract

We have studied the distribution of folate coenzyme forms in cultured human fibroblasts from control lines and from lines derived from nine patients representing all of the published reports of 5,10-CH(2)-H(4)PteGlu reductase deficiency. Based on mobility on DEAE-Sephadex and differential microbiological assay the major folate fractions in extracts of human fibroblasts were 5-CH(3)-H(4)PteGlu, 10-CHO-H(4)PteGlu, and 5-CHO-H(4)PteGlu with smaller fractions, which included 5-CH(3)-H(2)PteGlu, 10-CHO-PteGlu, and H(4)PteGlu. Evidence that the 5-CHO-H(4)PteGlu may have been derived from 5,10-CH=H(4)PteGlu during extraction is presented. In most of the mutant fibroblasts the absolute concentration of 5-CH(3)-H(4)PteGlu was lower than in control cells but the proportion of intracellular folate which was 5-CH(3)-H(4)PteGlu was strikingly lower in mutant cells when determined by chromatography or differential microbiological assay. In both control and mutant cells most of the 5-CH(3)-H(4)-PteGlu was polyglutamate. The proportion of intracellular folate which was polyglutamate was similar in control and mutant cells. A direct relationship was observed between the proportion of cellular folate which was 5-CH(3)-H(4)PteGlu, and both the clinical severity of this disorder and the residual enzyme activity indicating that the distribution of different folates may be an important control of intracellular folate metabolism. These studies indicate that 5,10-CH(2)-H(4)PteGlu reductase is the only significant intracellular pathway for the generation of 5-CH(3)-H(4)PteGlu, that the activity of this enzyme regulates the level of this folate in control and mutant cells under conditions of culture used here, that the majority of intracellular folate is in the polyglutamate form, and that the relative distribution of folates may control folate metabolism by interaction in the various folate reactions.

摘要

我们研究了来自对照细胞系以及来自9名患者细胞系的培养人成纤维细胞中叶酸辅酶形式的分布情况，这9名患者代表了已发表的所有关于5,10-CH(2)-H(4)PteGlu还原酶缺乏症的报告。基于在DEAE-葡聚糖上的迁移率和差异微生物学分析，人成纤维细胞提取物中的主要叶酸组分是5-CH(3)-H(4)PteGlu、10-CHO-H(4)PteGlu和5-CHO-H(4)PteGlu，还有较小比例的组分，包括5-CH(3)-H(2)PteGlu、10-CHO-PteGlu和H(4)PteGlu。本文提供了证据表明5-CHO-H(4)PteGlu可能在提取过程中源自5,10-CH=H(4)PteGlu。在大多数突变型成纤维细胞中，5-CH(3)-H(4)PteGlu的绝对浓度低于对照细胞，但通过色谱法或差异微生物学分析测定时，突变细胞中5-CH(3)-H(4)PteGlu形式的细胞内叶酸比例显著更低。在对照细胞和突变细胞中，大多数5-CH(3)-H(4)-PteGlu都是多聚谷氨酸形式。对照细胞和突变细胞中多聚谷氨酸形式的细胞内叶酸比例相似。观察到细胞叶酸中5-CH(3)-H(4)PteGlu的比例与该疾病的临床严重程度以及残余酶活性之间存在直接关系，这表明不同叶酸的分布可能是细胞内叶酸代谢的重要调控因素。这些研究表明，5,10-CH(2)-H(4)PteGlu还原酶是生成5-CH(3)-H(4)PteGlu的唯一重要细胞内途径，在此处使用的培养条件下，该酶的活性调节对照细胞和突变细胞中这种叶酸的水平，大多数细胞内叶酸是多聚谷氨酸形式，并且叶酸的相对分布可能通过在各种叶酸反应中的相互作用来控制叶酸代谢。

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