慢性肾衰竭患者红细胞胆碱转运的特征

Characterization of human erythrocyte choline transport in chronic renal failure.

作者信息

Riley S P, Talbot N J, Ahmed M J, Jouhal K, Hendry B M

机构信息

Department of Medicine, King's College School of Medicine and Dentistry, London, UK.

出版信息

Nephrol Dial Transplant. 1997 Sep;12(9):1921-7. doi: 10.1093/ndt/12.9.1921.

DOI:10.1093/ndt/12.9.1921

PMID:9306344

Abstract

BACKGROUND

Membrane transport of choline cations is elevated in renal failure in erythrocytes and cerebral tissue but the origins and clinical importance of this are unknown.

METHODS

The membrane transport changes have been characterized using erythrocytes from patients on maintenance haemodialysis (HD), patients on continuous ambulatory peritoneal dialysis (CAPD), and control subjects. Data were obtained from cells depleted of intracellular choline to create zero-trans (ZT) conditions for choline influx. [14C]-choline influx measurements provided a kinetic description of choline flux as the sum of a saturable transport system (defined by Vmax and Km) and an apparent diffusion pathway. Inhibition of choline transport by hemicholinium-3 (HC-3), quinine and N-ethylmaleimide (NEM) has been studied. Actions of three cationic polyamine putative uraemic toxins (putrescine, spermidine, spermine) were tested in control erythrocytes.

RESULTS

Mean (SEM) Vmax (ZT) was increased in HD at 45.0 (3.0) mumol/l cells/h and in CAPD at 46.6 (2.5) mumol/l cells/h compared to controls (30.0 (2.0) mumol/l cells/h). Mean Km (ZT) was not significantly altered in HD or CAPD (HD: 6.1 (1.6) microM; CAPD: 5.5 (0.7) microM; control: 5.1 (0.9) microM). The sensitivity of choline transport to the inhibitors tested was not altered in HD. 1.0 mM quinine, 2.0 mM NEM and 1.0 mM HC-3 caused 75-90% inhibition of transport in both HD and controls. For inhibition of ZT influx of 25 microM choline the mean IC50 of quinine was 90 (9) microM in HD and 101 (13) microM in controls (n.s.). The ZT influx of 200 microM choline was not altered by any of the polyamines at concentrations up to 1.0 mM.

CONCLUSIONS

Membrane choline transport in CRF remains protein-mediated and exhibits normal substrate and inhibitor affinities; high values of Vmax seem to occur through increased surface expression of an active normal choline transporter. Increases in plasma polyamines cannot explain the choline transport changes in CRF.

摘要

背景

在肾衰竭患者的红细胞和脑组织中，胆碱阳离子的膜转运增加，但其来源及临床重要性尚不清楚。

方法

使用维持性血液透析（HD）患者、持续性非卧床腹膜透析（CAPD）患者及对照受试者的红细胞来表征膜转运变化。数据来自耗尽细胞内胆碱以创建胆碱流入零转运（ZT）条件的细胞。[14C] - 胆碱流入测量提供了胆碱通量的动力学描述，作为可饱和转运系统（由Vmax和Km定义）和表观扩散途径的总和。研究了半胱氨酸 - 3（HC - 3）、奎宁和N - 乙基马来酰亚胺（NEM）对胆碱转运的抑制作用。在对照红细胞中测试了三种阳离子多胺类假定的尿毒症毒素（腐胺、亚精胺、精胺）的作用。

结果

与对照组（30.0（2.0）μmol/l细胞/小时）相比，HD组的平均（SEM）Vmax（ZT）增加至45.0（3.0）μmol/l细胞/小时，CAPD组为46.6（2.5）μmol/l细胞/小时。HD组或CAPD组的平均Km（ZT）无显著变化（HD：6.1（1.6）μM；CAPD：5.5（0.7）μM；对照：5.1（0.9）μM）。HD组中胆碱转运对所测试抑制剂的敏感性未改变。1.0 mM奎宁、2.0 mM NEM和1.0 mM HC - 3在HD组和对照组中均导致75 - 90%的转运抑制。对于抑制25μM胆碱的ZT流入，奎宁在HD组中的平均IC50为90（9）μM，在对照组中为101（13）μM（无显著差异）。浓度高达1.0 mM的任何一种多胺均未改变200μM胆碱的ZT流入。