Cationic uremic toxins affect human renal proximal tubule cell functioning through interaction with the organic cation transporter

Carolien M S Schophuizen, Martijn J Wilmer, Jitske Jansen, Lena Gustavsson, Constanze Hilgendorf, Joost G J Hoenderop, Lambert P van den Heuvel, R. Masereeuw

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Several organic cations, such as guanidino compounds and polyamines, have been found to accumulate in plasma of patients with kidney failure due to inadequate renal clearance. Here, we studied the interaction of cationic uremic toxins with renal organic cation transport in a conditionally immortalized human proximal tubule epithelial cell line (ciPTEC). Transporter activity was measured and validated in cell suspensions by studying uptake of the fluorescent substrate 4-(4-(dimethylamino)styryl)-N-methylpyridinium-iodide (ASP(+)). Subsequently, the inhibitory potencies of the cationic uremic toxins, cadaverine, putrescine, spermine and spermidine (polyamines), acrolein (polyamine breakdown product), guanidine, and methylguanidine (guanidino compounds) were determined. Concentration-dependent inhibition of ASP(+) uptake by TPA, cimetidine, quinidine, and metformin confirmed functional endogenous organic cation transporter 2 (OCT2) expression in ciPTEC. All uremic toxins tested inhibited ASP(+) uptake, of which acrolein required the lowest concentration to provoke a half-maximal inhibition (IC50 = 44 ± 2 μM). A Dixon plot was constructed for acrolein using three independent inhibition curves with 10, 20, or 30 μM ASP(+), which demonstrated competitive or mixed type of interaction (K i = 93 ± 16 μM). Exposing the cells to a mixture of cationic uremic toxins resulted in a more potent and biphasic inhibitory response curve, indicating complex interactions between the toxins and ASP(+) uptake. In conclusion, ciPTEC proves a suitable model to study cationic xenobiotic interactions. Inhibition of cellular uptake transport was demonstrated for several uremic toxins, which might indicate a possible role in kidney disease progression during uremia.

Original languageEnglish
Pages (from-to)1701-14
Number of pages14
JournalPflugers Archiv-European Journal of Physiology
Volume465
Issue number12
DOIs
Publication statusPublished - Dec 2013

Keywords

  • Acrolein
  • Biogenic Polyamines
  • Cations
  • Cell Line
  • Guanidines
  • Humans
  • Kidney Tubules, Proximal
  • Organic Cation Transport Proteins
  • Pyridinium Compounds
  • Toxins, Biological
  • Uremia

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