Thioudellet C, Oster T, Wellman M, Siest G
Centre du Médicament, URA CNRS 597, Nancy, France.
Eur J Biochem. 1994 Jun 15;222(3):1009-16. doi: 10.1111/j.1432-1033.1994.tb18952.x.
We previously described the establishment of a transfected cell line (V79HGGT) that stably produces the highest recombinant human gamma-glutamyltransferase (GGT) activity. We now report the utilization of V79HGGT as a model system for studying human GGT. The papain-solubilized recombinant enzyme has been highly purified from cultured cells by a new procedure. Studies on the purified enzyme, either by N-terminal sequencing or by characterization of its enzymic activities, confirmed that recombinant GGT shares structural and catalytic identity with native human enzymes. The circular dichroism analysis indicated an alpha-helical content of 19%. Based on these data, we have undertaken a study on the functional consequences of elevated GGT activity on the reduced glutathione (GSH) content. GSH status was followed in V79 and V79HGGT cells throughout growth. A particular pattern was observed for each cell line, depending on, but differentially affected by, alteration of the culture medium. Elevated GGT activity was associated with a 2.5-fold reduced GSH content, clearly suggesting a negative influence of the highly expressed enzyme on the GSH level under normal growth conditions. Possible mechanisms involved are proposed. Our findings pointed out that, among the GSH-related enzymes, GGT could constitute an important factor determining the steady-state content of GSH.
我们之前描述了一种转染细胞系(V79HGGT)的建立,该细胞系能稳定产生最高水平的重组人γ-谷氨酰转移酶(GGT)活性。我们现在报告将V79HGGT用作研究人GGT的模型系统。通过一种新方法从培养细胞中高度纯化了木瓜蛋白酶可溶解的重组酶。对纯化酶进行的N端测序或酶活性表征研究证实,重组GGT与天然人酶具有结构和催化一致性。圆二色性分析表明其α-螺旋含量为19%。基于这些数据,我们开展了一项关于GGT活性升高对还原型谷胱甘肽(GSH)含量的功能影响的研究。在V79和V79HGGT细胞整个生长过程中跟踪GSH状态。每种细胞系都观察到一种特定模式,这取决于培养基的变化,但受到的影响不同。GGT活性升高与GSH含量降低2.5倍相关,这清楚地表明在正常生长条件下,高表达的该酶对GSH水平有负面影响。文中提出了可能涉及的机制。我们的研究结果指出,在与GSH相关的酶中,GGT可能是决定GSH稳态含量的一个重要因素。
