Improving the clearance of protein-bound uremic toxins using cationic liposomes as an adsorbent in dialysate

Anionic and protein-bound uremic toxins, represented by indoxyl sulfate (IS), may be associated with cardiovascular outcomes and the progression of chronic kidney disease in cases of injured kidney function and are not easily cleared by traditional dialysis therapy. We fabricated cationic liposomes that were modified with polyethyleneimine (PEI), octadecylamine (Oct), and hexadecyl trimethyl ammonium bromide (CTAB), and evaluated the effects on the clearance of the representative protein-bound uremic toxins (PBUTs). The binding rate was obtained by ultrafiltration and in vitro dialysis was performed in a Rapid Equilibrium Dialysis (RED) device to assay the clearing efficiency of the dialysate supported by three types of cationic liposomes. The cationic liposomes showed a higher binding rate with IS (1.24–1.38 fold higher) and p-cresol (1.07–1.09 fold higher) than in the unmodified plain liposomes. The dialysate supported by cationic liposomes also exhibited better clearing efficiency for IS (PEI-20: 57.65 ± 1.74 %; Oct-5: 62.80 ± 0.69 %; CTAB-10: 66.54 ± 0.91 %; p < 0.05) and p-cresol (PEI-20: 67.05 ± 3.09 %; Oct-5: 79.26 ± 0.43 %; CTAB-5: 68.45 ± 1.72 %; p < 0.05) than for phosphate buffer saline (IS: 29.70 ± 2.38 %; p-cresol: 33.59 ± 3.44 %) or dialysate supported by bovine serum albumin (IS: 50.00 ± 4.01 %; p-cresol: 53.06 ± 0.97 %). In conclusion, cationic liposomes are efficient in the clearance of anionic PBUTs, and these modified liposomes suggest a potential application in blood purification.