Comper W D, Tay M, Wells X, Dawes J
Biochemistry Department, Monash University, Clayton, Victoria, Australia.
Biochem J. 1994 Jan 1;297 ( Pt 1)(Pt 1):31-4. doi: 10.1042/bj2970031.
The renal clearance of [3H]dextran sulphate by the isolated perfused rat kidney was associated with desulphation of the molecule, as demonstrated by ion-exchange and affinity chromatography of material resident in both glomeruli and urine samples. This process also occurred in vivo. The molecular size distribution of glomerular dextran sulphate in the perfused kidney was indistinguishable from that in the perfusate, and although urinary material was smaller it remained macromolecular. Sulphatase activity was not detected in urine or in the perfusate of perfused kidneys, but was detected in glomerular and non-glomerular cortex fractions isolated by a sieving procedure. The identification of significant biochemical changes to dextran sulphate demonstrates that it does not function as an inert transport probe, and supports the concept of cellular involvement in the process of renal charge selectivity.
通过对分离灌注的大鼠肾脏进行研究发现,[3H]硫酸葡聚糖的肾清除与该分子的脱硫作用有关,这一点通过对肾小球和尿液样本中物质进行离子交换和亲和层析得以证实。该过程在体内也会发生。灌注肾脏中肾小球硫酸葡聚糖的分子大小分布与灌注液中的无异,尽管尿液中的物质较小,但仍为大分子。在尿液或灌注肾脏的灌注液中未检测到硫酸酯酶活性,但在通过筛分程序分离出的肾小球和非肾小球皮质部分中检测到了该活性。对硫酸葡聚糖显著生化变化的鉴定表明,它并非作为惰性转运探针发挥作用,并支持细胞参与肾脏电荷选择性过程这一概念。