Abstract
Phosphate binders are used for the treatment of hyperphosphatemia in hemodialysis patients with chronic kidney disease. Sevelamer, a phosphate-binding polymer, has been reported to bind bile acids or fatty acids and thereby decrease its phosphate-binding capacity. The novel phosphate binder TRK-390 is a poly (allylamine) polymer that has been shown to have enhanced phosphate selectivity, with low bile-acid-binding. In this study we evaluated the effect of fatty acids on the phosphate-binding capacity of TRK-390. In the absence of fatty acids and bile acids, the phosphate-binding capacity of TRK-390 was similar to that of sevelamer. In the presence of fatty acids and bile acids, the phosphate-binding capacity of TRK-390 was reduced to 83%; in contrast, that of sevelamer was reduced to 35%. TRK-390 and sevelamer showed a similar effect in lowering urinary phosphate excretion in normal rats fed a normal diet. However, urinary phosphate excretion of rats treated with TRK-390 was reduced by about one half of that obtained with sevelamer, when given with a high-fat diet that had a fat content similar to the diet of hemodialysis patients. TRK-390 was superior in terms of phosphate selectivity in the presence of fatty acids and bile acids in vitro, and the phosphate-binding capacity of TRK-390 in vivo was shown to be less affected by fat in comparison with that of sevelamer. Thus, TRK-390 is expected to be useful as a novel highly selective phosphate binder.
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