Molecular basis for the dialysis disequilibrium syndrome: altered aquaporin and urea transporter expression in the brain

doi:10.1093/ndt/gfh877

NDT Advance Access originally published online on June 28, 2005
Nephrology Dialysis Transplantation 2005 20(9):1984-1988; doi:10.1093/ndt/gfh877

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Brief Report

Molecular basis for the dialysis disequilibrium syndrome: altered aquaporin and urea transporter expression in the brain

Marie-Marcelle Trinh-Trang-Tan¹, Jean-Pierre Cartron¹ and Lise Bankir²

¹ INSERM Unité 665 and ² INSERM Unité 367, Paris, France

Correspondence and offprint requests to: Marie-Marcelle Trinh-Trang-Tan, PhD, INSERM U665; INTS, 6 Rue Alexandre Cabanel, 75 015, Paris, France. Email: trinh{at}idf.inserm.fr

Background. Cerebral disorders caused by brain oedema characterizethe dialysis disequilibrium syndrome, a complication of rapidhaemodialysis. Brain oedema is presumably caused by the ‘reverseurea effect’, i.e. the significant urea gradient betweenblood and brain after dialysis, with, as a result, an inflowof water into the brain. To assess the molecular basis of thiseffect, we examined the expression of urea transporter UT-B1and aquaporin (AQP) 4 and AQP9 in the brain of uraemic rats.

Methods. Brain, kidneys and one testis were collected from foursham-operated (control) and four uraemic rats, 10 weeks after5/6 nephrectomy (Nx). Protein abundance was measured by semi-quantitaveimmunoblotting using affinity-purified rabbit anti-rat antibodiesapplied on tissue crude homogenates.

Results. The results are expressed as means±SE of banddensity (arbitrary units). In Nx compared with control rats,the brain expression of UT-B1 was reduced by half (32±3vs 62±8, P<0.01) whereas that of AQ4 was doubled (251±13vs 135±5, P<0.001), and that of AQP9 increased by65% (253±22 vs 154±10, P<0.01). UT-B1 expressionwas also lowered by Nx in kidney medulla (45±21 vs 141±4,P<0.01) but was unchanged in testis.

Conclusions. The conjunction of a reduced expression of UT-Band an increased expression of AQPs in brain cells may bringa new clue to understanding the DDS mechanism. Because of lowUT-B abundance, urea exit from astrocytes is most probably delayedduring rapid removal of extracellular urea through fast dialysis.This creates an osmotic driving force that promotes water entryinto the cells (favoured by abundant AQPs) and subsequent brainswelling.

Keywords: chronic renal failure; kidney; oedema; rat; subtotal nephrectomy; UT-B1

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