通过23Na核磁共振测量红细胞内广泛范围内的钠浓度。

Measurement of a wide range of intracellular sodium concentrations in erythrocytes by 23Na nuclear magnetic resonance.

作者信息

Boulanger Y, Vinay P, Desroches M

出版信息

Biophys J. 1985 Apr;47(4):553-61. doi: 10.1016/S0006-3495(85)83950-3.

DOI:10.1016/S0006-3495(85)83950-3

PMID:3986283

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1435127/

Abstract

The accuracy of the 23Na nuclear magnetic resonance (NMR) method for measuring the sodium concentration in erythrocytes was tested by comparing the NMR results to those obtained by emission-flame photometry. Comparisons were made on aqueous solutions, hemolysates, gels, ghosts, and intact erythrocytes. The intra- and extracellular 23Na NMR signals were distinguished by addition of the dysprosium tripolyphosphate [Dy(PPP)7-2] shift reagent to the extracellular fluid. The intra- and extracellular volumes of ghosts and cells were determined by the isotope dilution method. Our results indicate that greater than 20% of the intracellular signal remains undetected by NMR in ghosts and cells. When the cells are hemolyzed, the amount of NMR-detectable sodium varies depending on the importance of gel formation. In hemolysates prepared by water addition, the NMR and flame photometry results are identical. The loss of signal in ghosts, cells, and undiluted hemolysates is attributed to partial binding of the Na+ ion to intracellular components, this binding being operative only when these components exist in a gel state. In a second part, 31P NMR was used to monitor the penetration of the shift reagent into the cells during incubation. Our data demonstrate that free Dy3+ can slowly accumulate inside the red cell.

摘要

通过将23Na核磁共振（NMR）法测量红细胞中钠浓度的结果与发射火焰光度法的结果进行比较，测试了该方法的准确性。对水溶液、溶血产物、凝胶、血影和完整红细胞进行了比较。通过向细胞外液中添加三聚磷酸镝[Dy(PPP)7-2]位移试剂来区分细胞内和细胞外的23Na NMR信号。通过同位素稀释法测定血影和细胞的细胞内和细胞外体积。我们的结果表明，在血影和细胞中，大于20%的细胞内信号仍无法被NMR检测到。当细胞溶血时，NMR可检测到的钠量因凝胶形成的重要性而异。在通过加水制备的溶血产物中，NMR和火焰光度法的结果相同。血影、细胞和未稀释溶血产物中信号的损失归因于Na+离子与细胞内成分的部分结合，这种结合仅在这些成分以凝胶状态存在时起作用。在第二部分中，使用31P NMR监测孵育过程中位移试剂进入细胞的情况。我们的数据表明，游离的Dy3+可以在红细胞内缓慢积累。

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